Biotechnology and Bioengineering

Number of times cited: 842

• Guojun Wei, Liping Wang, Daming Dong, Zhaowei Teng, Zuowei Shi, Kaifu Wang, Gang An, Ying Guan, Bo Han, Meng Yao and Cory J. Xian, Promotion of cell growth and adhesion of a peptide hydrogel scaffold via mTOR/cadherin signaling, Journal of Cellular Physiology, 233, 2, (822-829), (2017).
  Wiley Online Library
• Andrew J. Ford and Padmavathy Rajagopalan, Extracellular matrix remodeling in 3D: implications in tissue homeostasis and disease progression, Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology, 10, 4, (2017).
  Wiley Online Library
• Eddy‐Tim Verjans, Jordi Doijen, Walter Luyten, Bart Landuyt and Liliane Schoofs, Three‐dimensional cell culture models for anticancer drug screening: Worth the effort?, Journal of Cellular Physiology, 233, 4, (2993-3003), (2017).
  Wiley Online Library
• Marianthi G. Manda, Lucilia P. da Silva, Mariana T. Cerqueira, Diana R. Pereira, Mariana B. Oliveira, João F. Mano, Alexandra P. Marques, Joaquim M. Oliveira, Vitor M. Correlo and Rui L. Reis, Gellan gum‐hydroxyapatite composite spongy‐like hydrogels for bone tissue engineering, Journal of Biomedical Materials Research Part A, 106, 2, (479-490), (2017).
  Wiley Online Library
• Takuya Murakami, Takashi Kawamori, Jeffrey D. Gopez, Alaina J. McGrath, Daniel Klinger and Kazuya Saito, Synthesis of PEO‐based physical gels with tunable viscoelastic properties, Journal of Polymer Science Part A: Polymer Chemistry, 56, 10, (1033-1038), (2018).
  Wiley Online Library
• Erfan Soliman, Fabio Bianchi, James N. Sleigh, Julian H George, M. Zameel Cader, Zhanfeng Cui and Hua Ye, Engineered method for directional growth of muscle sheets on electrospun fibers, Journal of Biomedical Materials Research Part A, 106, 5, (1165-1176), (2018).
  Wiley Online Library
• James R. Day, Anu David, Alexa L. Cichon, Tanay Kulkarni, Marilia Cascalho and Ariella Shikanov, Immunoisolating poly(ethylene glycol) based capsules support ovarian tissue survival to restore endocrine function, Journal of Biomedical Materials Research Part A, 106, 5, (1381-1389), (2018).
  Wiley Online Library
• Jacob H. Jordahl, Luis Solorio, Hongli Sun, Stacy Ramcharan, Clark B. Teeple, Henry R. Haley, Kyung Jin Lee, Thomas W. Eyster, Gary D. Luker, Paul H. Krebsbach and Joerg Lahann, 3D Jet Writing: Functional Microtissues Based on Tessellated Scaffold Architectures, Advanced Materials, 30, 14, (2018).
  Wiley Online Library
• Megan E. Cooke, Simon W. Jones, Britt ter Horst, Naiem Moiemen, Martyn Snow, Gurpreet Chouhan, Lisa J. Hill, Maryam Esmaeli, Richard J. A. Moakes, James Holton, Rajpal Nandra, Richard L. Williams, Alan M. Smith and Liam M. Grover, Structuring of Hydrogels across Multiple Length Scales for Biomedical Applications, Advanced Materials, 30, 14, (2018).
  Wiley Online Library
• Zunzhen Ming, Jinyan Fan, Chunyan Bao, Yuan Xue, Qiuning Lin and Linyong Zhu, Photogenerated Aldehydes for Protein Patterns on Hydrogels and Guidance of Cell Behavior, Advanced Functional Materials, 28, 14, (2018).
  Wiley Online Library
• Patrick M. Misun, Andreas Hierlemann and Olivier Frey, Miniature Fluidic Microtissue Culturing Device for Rapid Biological Detection, Miniature Fluidic Devices for Rapid Biological Detection, 10.1007/978-3-319-64747-0_8, (207-225), (2018).
  Crossref
• Steven H. Huang, Saahil Sheth, Era Jain, Xuefeng Jiang, Silviya P. Zustiak and Lan Yang, Whispering gallery mode resonator sensor for in situ measurements of hydrogel gelation, Optics Express, 26, 1, (51), (2018).
  Crossref
• Mahesh Devarasetty, Andrea R. Mazzocchi and Aleksander Skardal, Applications of Bioengineered 3D Tissue and Tumor Organoids in Drug Development and Precision Medicine: Current and Future, BioDrugs, (2018).
  Crossref
• Allison M. Bosworth, Shannon L. Faley, Leon M. Bellan and Ethan S. Lippmann, Modeling Neurovascular Disorders and Therapeutic Outcomes with Human-Induced Pluripotent Stem Cells, Frontiers in Bioengineering and Biotechnology, 5, (2018).
  Crossref
• Jonathan A. Kyffin, Parveen Sharma, Joseph Leedale, Helen E. Colley, Craig Murdoch, Pratibha Mistry and Steven D. Webb, Impact of cell types and culture methods on the functionality of in vitro liver systems – A review of cell systems for hepatotoxicity assessment, Toxicology in Vitro, (2018).
  Crossref
• Emilie Gontran, Marjorie Juchaux, Christophe Deroulers, Sergei Kruglik, Nicolas Huang, Mathilde Badoual and Olivier Seksek, Assessment of the ability of poly(l‐lysine)–poly(ethylene glycol) (PLL–PEG) hydrogels to support the growth of U87‐MG and F98 glioma tumor cells, Journal of Applied Polymer Science, 135, 21, (2018).
  Wiley Online Library
• Alessandro Tocchio, Naside Gozde Durmus, Kaushik Sridhar, Vigneshwaran Mani, Bukre Coskun, Rami El Assal and Utkan Demirci, Magnetically Guided Self‐Assembly and Coding of 3D Living Architectures, Advanced Materials, 30, 4, (2017).
  Wiley Online Library
• Albert Espona-Noguera, Jesús Ciriza, Alberto Cañibano-Hernández, Luis Fernandez, Ignacio Ochoa, Laura Saenz del Burgo and Jose Luis Pedraz, Tunable injectable alginate-based hydrogel for cell therapy in Type 1 Diabetes Mellitus, International Journal of Biological Macromolecules, 107, (1261), (2018).
  Crossref
• Yan Li, Pengcheng Wang, Chuanlin Hu, Kun Wang, Qing Chang, Lieju Liu, Zhenggang Han, Yang Shao, Ying Zhai, Zhengyu Zuo, Zhiyong Gong and Yang Wu, Protein corona of airborne nanoscale PM2.5 induces aberrant proliferation of human lung fibroblasts based on a 3D organotypic culture, Scientific Reports, 8, 1, (2018).
  Crossref
• Leo L. Wang, Christopher B. Highley, Yi‐Cheun Yeh, Jonathan H. Galarraga, Selen Uman and Jason A. Burdick, Three‐dimensional extrusion bioprinting of single‐ and double‐network hydrogels containing dynamic covalent crosslinks, Journal of Biomedical Materials Research Part A, 106, 4, (865-875), (2018).
  Wiley Online Library
• Menghua Zhao, Julien Dervaux, Tetsuharu Narita, François Lequeux, Laurent Limat and Matthieu Roché, Geometrical control of dissipation during the spreading of liquids on soft solids, Proceedings of the National Academy of Sciences, (201712562), (2018).
  Crossref
• Koki Sano, Yasuhiro Ishida and Takuzo Aida, Synthesis of Anisotropic Hydrogels and Their Applications, Angewandte Chemie International Edition, 57, 10, (2532-2543), (2018).
  Wiley Online Library
• Luyao Lin and Jin-Ming Lin, Design and Preparation of Microfluidics Device, Cell Analysis on Microfluidics, 10.1007/978-981-10-5394-8_1, (1-42), (2017).
  Crossref
• Chya‐Yan Liaw, Shen Ji and Murat Guvendiren, Engineering 3D Hydrogels for Personalized In Vitro Human Tissue Models, Advanced Healthcare Materials, 7, 4, (2018).
  Wiley Online Library
• Kin Fong Lei, Tai-Kun Liu and Ngan-Ming Tsang, Towards a high throughput impedimetric screening of chemosensitivity of cancer cells suspended in hydrogel and cultured in a paper substrate, Biosensors and Bioelectronics, 100, (355), (2018).
  Crossref
• , High Content Screening, (355)
  Crossref
• Lisa Sawicki, Leila Choe, Katherine Wiley, Kelvin H. Lee and April M. Kloxin, Isolation and identification of proteins secreted by cells cultured within synthetic hydrogel-based matrices, ACS Biomaterials Science & Engineering, (2018).
  Crossref
• , 3D printing: prospects and challenges, Nanotechnologies in Preventive and Regenerative Medicine, 10.1016/B978-0-323-48063-5.00004-6, (299-379), (2018).
  Crossref
• Christiane Claaßen, Marc H. Claaßen, Vincent Truffault, Lisa Sewald, Günter E. M. Tovar, Kirsten Borchers and Alexander Southan, Quantification of Substitution of Gelatin Methacryloyl: Best Practice and Current Pitfalls, Biomacromolecules, 19, 1, (42), (2018).
  Crossref
• Adérito J. R. Amaral, Mina Emamzadeh and George Pasparakis, Transiently malleable multi-healable hydrogel nanocomposites based on responsive boronic acid copolymers, Polymer Chemistry, 10.1039/C7PY01202K, (2018).
  Crossref
• Jennifer O. Buitrago, Kapil D. Patel, Ahmed El-Fiqi, Jung-Hwan Lee, Banani Kundu, Hae-Hyoung Lee and Hae-Won Kim, Silk fibroin / collagen protein hybrid cell-encapsulating hydrogels with tunable gelation and improved physical and biological properties, Acta Biomaterialia, (2018).
  Crossref
• Paul A. Wieringa, Ana Rita Gonçalves de Pinho, Silvestro Micera, Richard J. A. Wezel and Lorenzo Moroni, Biomimetic Architectures for Peripheral Nerve Repair: A Review of Biofabrication Strategies, Advanced Healthcare Materials, 7, 8, (2018).
  Wiley Online Library
• Zongjie Wang, Xian Jin, Zhenlin Tian, Frederic Menard, Jonathan F. Holzman and Keekyoung Kim, A Novel, Well‐Resolved Direct Laser Bioprinting System for Rapid Cell Encapsulation and Microwell Fabrication, Advanced Healthcare Materials, 7, 9, (2018).
  Wiley Online Library
• Tanmay Das, Marleen Häring, Debasish Haldar and David Díaz Díaz, Phenylalanine and derivatives as versatile low-molecular-weight gelators: design, structure and tailored function, Biomaterials Science, 6, 1, (38), (2018).
  Crossref
• Ying I. Wang, Carlos Carmona, James J. Hickman and Michael L. Shuler, Multiorgan Microphysiological Systems for Drug Development: Strategies, Advances, and Challenges, Advanced Healthcare Materials, 7, 2, (2017).
  Wiley Online Library
• Ewelina Tomecka, Kamil Zukowski, Elzbieta Jastrzebska, Michał Chudy and Zbigniew Brzozka, Microsystem with micropillar array for three- (gel-embaded) and two-dimensional cardiac cell culture, Sensors and Actuators B: Chemical, 10.1016/j.snb.2017.07.186, 254, (973-983), (2018).
  Crossref
• James R. Day, Anu David, Jiwon Kim, Evan A. Farkash, Marilia Cascalho, Nikola Milašinović and Ariella Shikanov, The impact of functional groups of poly(ethylene glycol) macromers on the physical properties of photo-polymerized hydrogels and the local inflammatory response in the host, Acta Biomaterialia, 67, (42), (2018).
  Crossref
• Xue-Bo Hu, Yan-Ling Liu, Wen-Jie Wang, Hai-Wei Zhang, Yu Qin, Shan Guo, Xin-Wei Zhang, Lei Fu and Wei-Hua Huang, Biomimetic Graphene-Based 3D Scaffold for Long-Term Cell Culture and Real-Time Electrochemical Monitoring, Analytical Chemistry, 90, 2, (1136), (2018).
  Crossref
• Luise Tomasetti and Miriam Breunig, Preventing Obstructions of Nanosized Drug Delivery Systems by the Extracellular Matrix, Advanced Healthcare Materials, 7, 3, (2017).
  Wiley Online Library
• Arundhati Bhowmick, Sovan Lal Banerjee, Nilkamal Pramanik, Piyali Jana, Tapas Mitra, Arumugam Gnanamani, Manas Das and Patit Paban Kundu, Organically modified clay supported chitosan/hydroxyapatite-zinc oxide nanocomposites with enhanced mechanical and biological properties for the application in bone tissue engineering, International Journal of Biological Macromolecules, 106, (11), (2018).
  Crossref
• Junzhe Lou, Ryan Stowers, Sungmin Nam, Yan Xia and Ovijit Chaudhuri, Stress relaxing hyaluronic acid-collagen hydrogels promote cell spreading, fiber remodeling, and focal adhesion formation in 3D cell culture, Biomaterials, 10.1016/j.biomaterials.2017.11.004, 154, (213-222), (2018).
  Crossref
• Chun Liu, Deshuai Liu, Yingying Wang, Yun Li, Tao Li, Zhiyou Zhou, Zhijian Yang, Jianhua Wang and Qiqing Zhang, Glycol chitosan/oxidized hyaluronic acid hydrogels functionalized with cartilage extracellular matrix particles and incorporating BMSCs for cartilage repair, Artificial Cells, Nanomedicine, and Biotechnology, (1), (2018).
  Crossref
• Koki Sano, Yasuhiro Ishida and Takuzo Aida, , Angewandte Chemie, 130, 10, (2558-2570), (2018).
  Wiley Online Library
• Sigrid A. Langhans, Three-Dimensional in Vitro Cell Culture Models in Drug Discovery and Drug Repositioning, Frontiers in Pharmacology, 9, (2018).
  Crossref
• S. Vignesh, Aswathi Gopalakrishnan, Poorna M.R., Shantikumar V. Nair, R. Jayakumar and Ullas Mony, Fabrication of micropatterned alginate-gelatin and k-carrageenan hydrogels of defined shapes using simple wax mould method as a platform for stem cell/induced Pluripotent Stem Cells (iPSC) culture, International Journal of Biological Macromolecules, 10.1016/j.ijbiomac.2018.02.031, 112, (737-744), (2018).
  Crossref
• Erwin Fuhrer, Anne Bäcker, Stephanie Kraft, Friederike J. Gruhl, Matthias Kirsch, Neil MacKinnon, Jan G. Korvink and Swati Sharma, 3D Carbon Scaffolds for Neural Stem Cell Culture and Magnetic Resonance Imaging, Advanced Healthcare Materials, 7, 4, (2017).
  Wiley Online Library
• Xuexia Lin and Jin-Ming Lin, Cell Metabolite Analysis on Microfluidic Platform, Cell Analysis on Microfluidics, 10.1007/978-981-10-5394-8_12, (371-396), (2017).
  Crossref
• Maria Teresa Tedesco, Donatella Di Lisa, Paolo Massobrio, Nicolò Colistra, Mattia Pesce, Tiziano Catelani, Elena Dellacasa, Roberto Raiteri, Sergio Martinoia and Laura Pastorino, Soft chitosan microbeads scaffold for 3D functional neuronal networks, Biomaterials, 156, (159), (2018).
  Crossref
• Zhongmin Liu, Mingliang Tang, Jinping Zhao, Renjie Chai and Jiuhong Kang, Looking into the Future: Toward Advanced 3D Biomaterials for Stem‐Cell‐Based Regenerative Medicine, Advanced Materials, 30, 17, (2018).
  Wiley Online Library
• Ryota Tamate, Kotomi Takahashi, Takeshi Ueki, Aya Mizutani Akimoto and Ryo Yoshida, Macroscopic Adhesion of Thermoreversible ABC Triblock Copolymer‐Based Hydrogels Via Boronic Acid–Sugar Complexation, Macromolecular Rapid Communications, 39, 9, (2018).
  Wiley Online Library
• Gülistan Koçer and Pascal Jonkheijm, About Chemical Strategies to Fabricate Cell‐Instructive Biointerfaces with Static and Dynamic Complexity, Advanced Healthcare Materials, 7, 14, (2018).
  Wiley Online Library
• Barbara L. Ekerdt, Christina M. Fuentes, Yuguo Lei, Maroof M. Adil, Anusuya Ramasubramanian, Rachel A. Segalman and David V. Schaffer, Thermoreversible Hyaluronic Acid‐PNIPAAm Hydrogel Systems for 3D Stem Cell Culture, Advanced Healthcare Materials, 7, 12, (2018).
  Wiley Online Library
• Negar Faramarzi, Iman K. Yazdi, Mahboubeh Nabavinia, Andrea Gemma, Adele Fanelli, Andrea Caizzone, Leon M. Ptaszek, Indranil Sinha, Ali Khademhosseini, Jeremy N. Ruskin and Ali Tamayol, Patient‐Specific Bioinks for 3D Bioprinting of Tissue Engineering Scaffolds, Advanced Healthcare Materials, 7, 11, (2018).
  Wiley Online Library
• Guoming Sun, Yu‐I Shen and John W. Harmon, Engineering Pro‐Regenerative Hydrogels for Scarless Wound Healing, Advanced Healthcare Materials, 7, 14, (2018).
  Wiley Online Library
• Yujie Ke, Chengzhi Zhou, Yang Zhou, Shancheng Wang, Siew Hwa Chan and Yi Long, Emerging Thermal‐Responsive Materials and Integrated Techniques Targeting the Energy‐Efficient Smart Window Application, Advanced Functional Materials, 28, 22, (2018).
  Wiley Online Library
• Brisa Peña, Melissa Laughter, Susan Jett, Teisha J. Rowland, Matthew R. G. Taylor, Luisa Mestroni and Daewon Park, Injectable Hydrogels for Cardiac Tissue Engineering, Macromolecular Bioscience, 18, 6, (2018).
  Wiley Online Library
• Shahed Behzadi, Naazanene M. Vatan, Kevin Lema, Dike Nwaobasi, Ilia Zenkov, Parisa P. S. S. Abadi, Daid Ahmad Khan, Claudia Corbo, Haniyeh Aghaverdi, Omid C. Farokhzad and Morteza Mahmoudi, Flat Cell Culturing Surface May Cause Misinterpretation of Cellular Uptake of Nanoparticles, Advanced Biosystems, 2, 6, (2018).
  Wiley Online Library
• Pengyao Xing, Yongxin Li, Yang Wang, Pei‐Zhou Li, Hongzhong Chen, Soo Zeng Fiona Phua and Yanli Zhao, Water‐Binding‐Mediated Gelation/Crystallization and Thermosensitive Superchirality, Angewandte Chemie, 130, 26, (7900-7905), (2018).
  Wiley Online Library
• Pengyao Xing, Yongxin Li, Yang Wang, Pei‐Zhou Li, Hongzhong Chen, Soo Zeng Fiona Phua and Yanli Zhao, Water‐Binding‐Mediated Gelation/Crystallization and Thermosensitive Superchirality, Angewandte Chemie International Edition, 57, 26, (7774-7779), (2018).
  Wiley Online Library
• Elise A. Aeby, Patrick M. Misun, Andreas Hierlemann and Olivier Frey, Microfluidic Hydrogel Hanging‐Drop Network for Long‐Term Culturing of 3D Microtissues and Simultaneous High‐Resolution Imaging, Advanced Biosystems, 2, 7, (2018).
  Wiley Online Library
• Romina Schröder, Laura Besch, Hannah Pohlit, Martin Panthöfer, Wilfried Roth, Holger Frey, Wolfgang Tremel and Ronald E. Unger, Particles of vaterite, a metastable CaCO3 polymorph, exhibit high biocompatibility for human osteoblasts and endothelial cells and may serve as a biomaterial for rapid bone regeneration, Journal of Tissue Engineering and Regenerative Medicine, 12, 7, (1754-1768), (2018).
  Wiley Online Library
• Min Bao, Jing Xie and Wilhelm T. S. Huck, Recent Advances in Engineering the Stem Cell Microniche in 3D, Advanced Science, 5, 8, (2018).
  Wiley Online Library
• Christiane Claaßen, Marc H. Claaßen, Fabian Gohl, Günter E. M. Tovar, Kirsten Borchers and Alexander Southan, Photoinduced Cleavage and Hydrolysis of o‐Nitrobenzyl Linker and Covalent Linker Immobilization in Gelatin Methacryloyl Hydrogels, Macromolecular Bioscience, 18, 9, (2018).
  Wiley Online Library
• Markus Friedemann, Liv Kalbitzer, Sandra Franz, Stephanie Moeller, Matthias Schnabelrauch, Jan‐Christoph Simon, Tilo Pompe and Katja Franke, Instructing Human Macrophage Polarization by Stiffness and Glycosaminoglycan Functionalization in 3D Collagen Networks, Advanced Healthcare Materials, 6, 7, (2017).
  Wiley Online Library
• Zunzhen Ming, Xing Ruan, Chunyan Bao, Qiuning Lin, Yi Yang and Linyong Zhu, Micropatterned Protein for Cell Adhesion through Phototriggered Charge Change in a Polyvinylpyrrolidone Hydrogel, Advanced Functional Materials, 27, 25, (2017).
  Wiley Online Library
• Aiswarya Viswanath, Julie Vanacker, Loïc Germain, Julian G. Leprince, Anibal Diogenes, Kevin M. Shakesheff, Lisa J. White and Anne des Rieux, Extracellular matrix‐derived hydrogels for dental stem cell delivery, Journal of Biomedical Materials Research Part A, 105, 1, (319-328), (2016).
  Wiley Online Library
• Mohammad Sayem Mozumder, Anusha Mairpady and Abdel‐Hamid I. Mourad, Polymeric nanobiocomposites for biomedical applications, Journal of Biomedical Materials Research Part B: Applied Biomaterials, 105, 5, (1241-1259), (2016).
  Wiley Online Library
• Ninouk Akkerman and Libert H.K. Defize, Dawn of the organoid era, BioEssays, 39, 4, (2017).
  Wiley Online Library
• Xiao‐Qiu Dou and Chuan‐Liang Feng, Amino Acids and Peptide‐Based Supramolecular Hydrogels for Three‐Dimensional Cell Culture, Advanced Materials, 29, 16, (2017).
  Wiley Online Library
• Giovanni Stefano Ugolini, Roberta Visone, Alberto Redaelli, Matteo Moretti and Marco Rasponi, Generating Multicompartmental 3D Biological Constructs Interfaced through Sequential Injections in Microfluidic Devices, Advanced Healthcare Materials, 6, 10, (2017).
  Wiley Online Library
• Thomas Buchecker, Xavier Le Goff, Bappaditya Naskar, Arno Pfitzner, Olivier Diat and Pierre Bauduin, Polyoxometalate/Polyethylene Glycol Interactions in Water: From Nanoassemblies in Water to Crystal Formation by Electrostatic Screening, Chemistry – A European Journal, 23, 35, (8434-8442), (2017).
  Wiley Online Library
• Sandip V. Jadhav, Paolo Amabili, Hans‐Georg Stammler and Norbert Sewald, Remarkable Modulation of Self‐Assembly in Short γ‐Peptides by Neighboring Ions and Orthogonal H‐Bonding, Chemistry – A European Journal, 23, 43, (10352-10357), (2017).
  Wiley Online Library
• Nicolas Helfricht, Andreas Mark, Marina Behr, Andreas Bernet, Hans‐Werner Schmidt and Georg Papastavrou, Writing with Fluid: Structuring Hydrogels with Micrometer Precision by AFM in Combination with Nanofluidics, Small, 13, 31, (2017).
  Wiley Online Library
• Christiane Jungnickel, Mikhail V. Tsurkan, Kristin Wogan, Carsten Werner and Michael Schlierf, Bottom‐Up Structuring and Site‐Selective Modification of Hydrogels Using a Two‐Photon [2+2] Cycloaddition of Maleimide, Advanced Materials, 29, 2, (2016).
  Wiley Online Library
• Huiyuan Wang, Danqing Zhu, Alexandra Paul, Lei Cai, Annika Enejder, Fan Yang and Sarah C. Heilshorn, Covalently Adaptable Elastin‐Like Protein–Hyaluronic Acid (ELP–HA) Hybrid Hydrogels with Secondary Thermoresponsive Crosslinking for Injectable Stem Cell Delivery, Advanced Functional Materials, 27, 28, (2017).
  Wiley Online Library
• Samuel R. Moxon, Megan E. Cooke, Sophie C. Cox, Martyn Snow, Lee Jeys, Simon W. Jones, Alan M. Smith and Liam M. Grover, Suspended Manufacture of Biological Structures, Advanced Materials, 29, 13, (2017).
  Wiley Online Library
• Rui‐Xin Wu, Yuan Yin, Xiao‐Tao He, Xuan Li and Fa‐Ming Chen, Engineering a Cell Home for Stem Cell Homing and Accommodation, Advanced Biosystems, 1, 4, (2017).
  Wiley Online Library
• Zhao Wei, Daniel M. Lewis, Yu Xu and Sharon Gerecht, Dual Cross‐Linked Biofunctional and Self‐Healing Networks to Generate User‐Defined Modular Gradient Hydrogel Constructs, Advanced Healthcare Materials, 6, 16, (2017).
  Wiley Online Library
• Shaohua Ma, Nobina Mukherjee, Ellina Mikhailova and Hagan Bayley, Gel Microrods for 3D Tissue Printing, Advanced Biosystems, 1, 8, (2017).
  Wiley Online Library
• Aaron R. Short, Catherine Czeisler, Benjamin Stocker, Sara Cole, José Javier Otero and Jessica O. Winter, Imaging Cell–Matrix Interactions in 3D Collagen Hydrogel Culture Systems, Macromolecular Bioscience, 17, 6, (2017).
  Wiley Online Library
• Torsten Rossow, Philipp S. Lienemann and David J. Mooney, Cell Microencapsulation by Droplet Microfluidic Templating, Macromolecular Chemistry and Physics, 218, 2, (2016).
  Wiley Online Library
• Jorge Royes Mir, Christophe Coudret, Clément Roux, Florence Benoit‐Marquié, Martine Cazalès, Childerick Séverac, Corinne Lorenzo and Anne‐Françoise Mingotaud, Rational Hydrogel Formulation Leads to Reversible and Enhanced Photocontrolled Rigidity, ChemPhotoChem, 1, 7, (311-316), (2017).
  Wiley Online Library
• Megan M. Wancura, Quinn Anex‐Ries, Anna L. Carroll, Ana Paola Garcia, Pooja Hindocha and Maren E. Buck, Fabrication, chemical modification, and topographical patterning of reactive gels assembled from azlactone‐functionalized polymers and a diamine, Journal of Polymer Science Part A: Polymer Chemistry, 55, 19, (3185-3194), (2017).
  Wiley Online Library
• Subhadeep Das, Rakesh Kumar, Narendra Nath Jha and Samir K. Maji, Controlled Exposure of Bioactive Growth Factor in 3D Amyloid Hydrogel for Stem Cells Differentiation, Advanced Healthcare Materials, 6, 18, (2017).
  Wiley Online Library
• Stephen M. Hamlet, Cedryck Vaquette, Amit Shah, Dietmar W. Hutmacher and Saso Ivanovski, 3‐Dimensional functionalized polycaprolactone‐hyaluronic acid hydrogel constructs for bone tissue engineering, Journal of Clinical Periodontology, 44, 4, (428-437), (2017).
  Wiley Online Library
• Zofia F. Bielecka, Kamila Maliszewska‐Olejniczak, Ilan J. Safir, Cezary Szczylik and Anna M. Czarnecka, Three‐dimensional cell culture model utilization in cancer stem cell research, Biological Reviews, 92, 3, (1505-1520), (2016).
  Wiley Online Library
• Jeremy R. Miles, Taylor D. Laughlin, Catherine N. Sargus‐Patino and Angela K. Pannier, In vitro porcine blastocyst development in three‐dimensional alginate hydrogels, Molecular Reproduction and Development, 84, 9, (775-787), (2017).
  Wiley Online Library
• Suntae Kim, Sung Bo Sim, Kangseok Lee and Chaenyung Cha, Comprehensive Examination of Mechanical and Diffusional Effects on Cell Behavior Using a Decoupled 3D Hydrogel System, Macromolecular Bioscience, 17, 9, (2017).
  Wiley Online Library
• Byung‐Chul Kim, Sung‐Min Jun, So Yeon Kim, Yong‐Dae Kwon, Sung Chul Choe, Eun‐Chul Kim, Jae‐Hyung Lee, Jinseok Kim, Jun‐Kyo Francis Suh and Yu‐Shik Hwang, Engineering three dimensional micro nerve tissue using postnatal stem cells from human dental apical papilla, Biotechnology and Bioengineering, 114, 4, (903-914), (2016).
  Wiley Online Library
• Alexis Gonneaud, Claude Asselin, François Boudreau and François‐Michel Boisvert, Phenotypic Analysis of Organoids by Proteomics, PROTEOMICS, 17, 20, (2017).
  Wiley Online Library
• Michele M. Nava, Nunzia Di Maggio, Tommaso Zandrini, Giulio Cerullo, Roberto Osellame, Ivan Martin and Manuela T. Raimondi, Synthetic niche substrates engineered via two‐photon laser polymerization for the expansion of human mesenchymal stromal cells, Journal of Tissue Engineering and Regenerative Medicine, 11, 10, (2836-2845), (2016).
  Wiley Online Library
• Jamie Sharp and Patrick Vermette, An In‐situ glucose‐stimulated insulin secretion assay under perfusion bioreactor conditions, Biotechnology Progress, 33, 2, (454-462), (2016).
  Wiley Online Library
• Shantanu Pradhan, Keely A. Keller, John L. Sperduto and John H. Slater, Fundamentals of Laser‐Based Hydrogel Degradation and Applications in Cell and Tissue Engineering, Advanced Healthcare Materials, 6, 24, (2017).
  Wiley Online Library
• Ghorbanali Sharifzadeh and Hossein Hosseinkhani, Biomolecule‐Responsive Hydrogels in Medicine, Advanced Healthcare Materials, 6, 24, (2017).
  Wiley Online Library
• Ning Zhou, Zeyuan Cao and Bing Xu, Functional Hyper‐Crosslinkers, Chemistry – A European Journal, 23, 63, (15844-15851), (2017).
  Wiley Online Library
• Kalyani Prusty and Sarat K. Swain, Cellulose‐Based Nanohydrogels for Tissue Engineering Applications, Nanocellulose and Nanohydrogel Matrices, (67-90), (2017).
  Wiley Online Library
• Antonio Romo‐Morales and Stefan Przyborski, An introduction to the third dimension for routine cell culture, Technology Platforms for 3D Cell Culture, (1-19), (2017).
  Wiley Online Library
• Suparna Sanyal and Marshall Kosovsky, Materials and assay systems used for three‐dimensional cell culture, Technology Platforms for 3D Cell Culture, (143-172), (2017).
  Wiley Online Library
• Maziyar M. Khansari, Lioudmila V. Sorokina, Prithviraj Mukherjee, Farrukh Mukhtar, Mostafa Rezazadeh Shirdar, Mahnaz Shahidi and Tolou Shokuhfar, Classification of Hydrogels Based on Their Source: A Review and Application in Stem Cell Regulation, JOM, 10.1007/s11837-017-2412-9, 69, 8, (1340-1347), (2017).
  Crossref
• Yuta Kurashina, Kenjiro Takemura and James Friend, Cell agglomeration in the wells of a 24-well plate using acoustic streaming, Lab Chip, 17, 5, (876), (2017).
  Crossref
• Shimrit Adutler-Lieber, Irina Zaretsky, Helena Sabany, Elena Kartvelishvily, Ofra Golani, Benjamin Geiger and Nir Friedman, Substrate-bound CCL21 and ICAM1 combined with soluble IL-6 collectively augment the expansion of antigen-specific murine CD4 + T cells , Blood Advances, 1, 15, (1016), (2017).
  Crossref
• Hansen Yu, Yanan Wang, Haiyang Yang, Kang Peng and Xingyuan Zhang, Injectable self-healing hydrogels formed via thiol/disulfide exchange of thiol functionalized F127 and dithiolane modified PEG, Journal of Materials Chemistry B, 10.1039/C7TB00746A, 5, 22, (4121-4127), (2017).
  Crossref
• H. W. Ooi, S. Hafeez, C. A. van Blitterswijk, L. Moroni and M. B. Baker, Hydrogels that listen to cells: a review of cell-responsive strategies in biomaterial design for tissue regeneration, Mater. Horiz., 10.1039/C7MH00373K, 4, 6, (1020-1040), (2017).
  Crossref
• Giorgiana Salgado, Yi Zhen Ng, Li Fang Koh, Christabelle S.M. Goh and John E. Common, Human reconstructed skin xenografts on mice to model skin physiology, Differentiation, 98, (14), (2017).
  Crossref
• Anna Poon, Yu Zhang, Abinaya Chandrasekaran, Phetcharat Phanthong, Benjamin Schmid, Troels T. Nielsen and Kristine K. Freude, Modeling neurodegenerative diseases with patient-derived induced pluripotent cells: Possibilities and challenges, New Biotechnology, 39, (190), (2017).
  Crossref
• Sebastiaan J. Trietsch, Elena Naumovska, Dorota Kurek, Meily C. Setyawati, Marianne K. Vormann, Karlijn J. Wilschut, Henriëtte L. Lanz, Arnaud Nicolas, Chee Ping Ng, Jos Joore, Stefan Kustermann, Adrian Roth, Thomas Hankemeier, Annie Moisan and Paul Vulto, Membrane-free culture and real-time barrier integrity assessment of perfused intestinal epithelium tubes, Nature Communications, 10.1038/s41467-017-00259-3, 8, 1, (2017).
  Crossref
• Hanze Ying, Jonathan Yen, Ruibo Wang, Yang Lai, Jer-Luen-Aaron Hsu, Yuhang Hu and Jianjun Cheng, Degradable and biocompatible hydrogels bearing a hindered urea bond, Biomaterials Science, 10.1039/C7BM00669A, 5, 12, (2398-2402), (2017).
  Crossref
• Daniel Merryweather and Paul Roach, The need for advanced three-dimensional neural models and developing enabling technologies, MRS Communications, 10.1557/mrc.2017.50, 7, 03, (309-319), (2017).
  Crossref
• Olfat Gsib, Jean-Luc Duval, Mathieu Goczkowski, Marie Deneufchatel, Odile Fichet, Véronique Larreta-Garde, Sidi Bencherif and Christophe Egles, Evaluation of Fibrin-Based Interpenetrating Polymer Networks as Potential Biomaterials for Tissue Engineering, Nanomaterials, 7, 12, (436), (2017).
  Crossref
• Ainhoa Gonzalez-Pujana, Edorta Santos, Gorka Orive, Jose Luis Pedraz and Rosa Maria Hernandez, Cell microencapsulation technology: Current vision of its therapeutic potential through the administration routes, Journal of Drug Delivery Science and Technology, 42, (49), (2017).
  Crossref
• Min-Young Choi, Jong-Tae Kim, Won-Jin Lee, Yunki Lee, Kyung Min Park, Young-Il Yang and Ki Dong Park, Engineered extracellular microenvironment with a tunable mechanical property for controlling cell behavior and cardiomyogenic fate of cardiac stem cells, Acta Biomaterialia, 10.1016/j.actbio.2017.01.002, 50, (234-248), (2017).
  Crossref
• Eric Y. Du, Adam D. Martin, Celine Heu and Pall Thordarson, The Use of Hydrogels as Biomimetic Materials for 3D Cell Cultures, Australian Journal of Chemistry, 70, 1, (1), (2017).
  Crossref
• Lindsey T. Saldin, Madeline C. Cramer, Sachin S. Velankar, Lisa J. White and Stephen F. Badylak, Extracellular matrix hydrogels from decellularized tissues: Structure and function, Acta Biomaterialia, 10.1016/j.actbio.2016.11.068, 49, (1-15), (2017).
  Crossref
• Hsieh-Fu Tsai, Alen Trubelja, Amy Q. Shen and Gang Bao, Tumour-on-a-chip: microfluidic models of tumour morphology, growth and microenvironment, Journal of The Royal Society Interface, 10.1098/rsif.2017.0137, 14, 131, (20170137), (2017).
  Crossref
• S. Buscemi, V.D. Palumbo, A. Maffongelli, S. Fazzotta, F.S. Palumbo, M. Licciardi, C. Fiorica, R. Puleio, G. Cassata, L. Fiorello, G. Buscemi and A.I. lo Monte, Electrospun PHEA-PLA/PCL Scaffold for Vascular Regeneration: A Preliminary in Vivo Evaluation, Transplantation Proceedings, 10.1016/j.transproceed.2017.02.017, 49, 4, (716-721), (2017).
  Crossref
• Garry Kerch, Polymer hydration and stiffness at biointerfaces and related cellular processes, Nanomedicine: Nanotechnology, Biology and Medicine, 10.1016/j.nano.2017.08.012, (2017).
  Crossref
• D. Schaffer and S. Willerth, 5.8 Scaffold Materials for Human Embryonic Stem Cell Culture and Differentiation ☆, Comprehensive Biomaterials II, 10.1016/B978-0-12-803581-8.10111-0, (129-153), (2017).
  Crossref
• Aaron H. Aziz, Joseph Wahlquist, Aaron Sollner, Virginia Ferguson, Frank W. DelRio and Stephanie J. Bryant, Mechanical characterization of sequentially layered photo-clickable thiol-ene hydrogels, Journal of the Mechanical Behavior of Biomedical Materials, 10.1016/j.jmbbm.2016.09.007, 65, (454-465), (2017).
  Crossref
• Nika Bahari Javan, Hamed Montazeri, Leila Rezaie Shirmard, Nersi Jafary Omid, Ghullam Reza Barbari, Mohsen Amini, Mohammad Hossein Ghahremani, Morteza Rafiee-Tehrani and Farid Abedin Dorkoosh, Preparation, characterization and in vivo evaluation of a combination delivery system based on hyaluronic acid/jeffamine hydrogel loaded with PHBV/PLGA blend nanoparticles for prolonged delivery of Teriparatide, European Journal of Pharmaceutical Sciences, 10.1016/j.ejps.2017.02.018, 101, (167-181), (2017).
  Crossref
• B. Rossi, A. Paciaroni, V. Venuti, G. C. Fadda, L. Melone, C. Punta, V. Crupi, D. Majolino and A. Mele, SANS investigation of water adsorption in tunable cyclodextrin-based polymeric hydrogels, Physical Chemistry Chemical Physics, 19, 8, (6022), (2017).
  Crossref
• , 3D Cell Culture, (29)
  Crossref
• Matthew J. Webber and Robert Langer, Drug delivery by supramolecular design, Chem. Soc. Rev., 10.1039/C7CS00391A, 46, 21, (6600-6620), (2017).
  Crossref
• Dorina Diekjürgen and David W. Grainger, Polysaccharide matrices used in 3D in vitro cell culture systems, Biomaterials, 10.1016/j.biomaterials.2017.06.020, 141, (96-115), (2017).
  Crossref
• Reshma Lali Raveendran, Nishanth Kumar Sasidharan and Sudha J. Devaki, Design of Macroscopically Ordered Liquid Crystalline Hydrogel Columns Knitted with Nanosilver for Topical Applications, Bioconjugate Chemistry, 28, 4, (1005), (2017).
  Crossref
• Yan Liu, Kaihuan Zhang, Jinghong Ma and G. Julius Vancso, Thermoresponsive Semi-IPN Hydrogel Microfibers from Continuous Fluidic Processing with High Elasticity and Fast Actuation, ACS Applied Materials & Interfaces, 9, 1, (901), (2017).
  Crossref
• V Milleret, P.S. Lienemann and M. Ehrbar, 4.31 Cell-Demanded Release of Growth Factors ☆, Comprehensive Biomaterials II, 10.1016/B978-0-12-803581-8.10180-8, (571-588), (2017).
  Crossref
• Prabu Siva Sankar, Mohd Firdaus Che Mat, Kalaivani Muniandy, Benedict Lian Shi Xiang, Phang Su Ling, Susan Ling Ling Hoe, Alan Soo-Beng Khoo and Nethia Mohana-Kumaran, Modeling nasopharyngeal carcinoma in three dimensions, Oncology Letters, 10.3892/ol.2017.5697, 13, 4, (2034-2044), (2017)., (2017).
  Crossref
• Morgan A. Urello, Kristi L. Kiick and Millicent O. Sullivan, ECM turnover-stimulated gene delivery through collagen-mimetic peptide-plasmid integration in collagen, Acta Biomaterialia, 10.1016/j.actbio.2017.08.038, 62, (167-178), (2017).
  Crossref
• Zimeng Zhang, Biran Wang, David Hui, Jingjing Qiu and Shiren Wang, 3D bioprinting of soft materials-based regenerative vascular structures and tissues, Composites Part B: Engineering, 10.1016/j.compositesb.2017.05.011, 123, (279-291), (2017).
  Crossref
• Max H. Rich, Min Kyung Lee, William C. Ballance, Marni Boppart and Hyunjoon Kong, Poly(ethylene glycol)-Mediated Collagen Gel Mechanics Regulates Cellular Phenotypes in a Microchanneled Matrix, Biomacromolecules, 10.1021/acs.biomac.7b00476, 18, 8, (2315-2323), (2017).
  Crossref
• Manasi P. Jogalekar, Leigh G. Cooper and Elba E. Serrano, Hydrogel Environment Supports Cell Culture Expansion of a Grade IV Astrocytoma, Neurochemical Research, 42, 9, (2610), (2017).
  Crossref
• Stella Totti, Spyros I. Vernardis, Lisiane Meira, Pedro A. Pérez-Mancera, Eithne Costello, William Greenhalf, Daniel Palmer, John Neoptolemos, Athanasios Mantalaris and Eirini G. Velliou, Designing a bio-inspired biomimetic in vitro system for the optimization of ex vivo studies of pancreatic cancer, Drug Discovery Today, 10.1016/j.drudis.2017.01.012, 22, 4, (690-701), (2017).
  Crossref
• Armin Vedadghavami, Farnaz Minooei, Mohammad Hossein Mohammadi, Sultan Khetani, Ahmad Rezaei Kolahchi, Shohreh Mashayekhan and Amir Sanati-Nezhad, Manufacturing of hydrogel biomaterials with controlled mechanical properties for tissue engineering applications, Acta Biomaterialia, 10.1016/j.actbio.2017.07.028, 62, (42-63), (2017).
  Crossref
• A. M. Clark, S. E. Wheeler, C. L. Young, L. Stockdale, J. Shepard Neiman, W. Zhao, D. B. Stolz, R. Venkataramanan, D. Lauffenburger, L. Griffith and A. Wells, A liver microphysiological system of tumor cell dormancy and inflammatory responsiveness is affected by scaffold properties, Lab Chip, 10.1039/C6LC01171C, 17, 1, (156-168), (2017).
  Crossref
• Seyedsina Moeinzadeh and Esmaiel Jabbari, 3D Cell Culture in Micropatterned Hydrogels Prepared by Photomask, Microneedle, or Soft Lithography Techniques, 3D Cell Culture, 10.1007/978-1-4939-7021-6_18, (239-252), (2017).
  Crossref
• Juan Rodríguez-Hernández, Antimicrobial Hydrogels, Polymers against Microorganisms, 10.1007/978-3-319-47961-3_8, (179-204), (2016).
  Crossref
• Akihiro J. Matsuoka, Zafar A. Sayed, Nicholas Stephanopoulos, Eric J. Berns, Anil R. Wadhwani, Zachery D. Morrissey, Duncan M. Chadly, Shun Kobayashi, Alexandra N. Edelbrock, Tomoji Mashimo, Charles A. Miller, Tammy L. McGuire, Samuel I. Stupp, John A. Kessler and Johnson Rajasingh, Creating a stem cell niche in the inner ear using self-assembling peptide amphiphiles, PLOS ONE, 12, 12, (e0190150), (2017).
  Crossref
• Longbao Zhu, Fei Ge, Liangjun Yang, Wanzhen Li, Shenghua Wei, Yugui Tao and Guocheng Du, Alginate Particles with Ovalbumin (OVA) Peptide Can Serve as a Carrier and Adjuvant for Immune Therapy in B16-OVA Cancer Model, Medical Science Monitor Basic Research, 23, (166), (2017).
  Crossref
• Yan Huang, Jing Ji, Xili Ding and Xiaoming Li, The Potential Tissues and Their Properties, Tissue Repair, 10.1007/978-981-10-3554-8_6, (179-223), (2017).
  Crossref
• Liang Gao, Patrick Orth, Magali Cucchiarini and Henning Madry, Effects of solid acellular type-I/III collagen biomaterials on in vitro and in vivo chondrogenesis of mesenchymal stem cells , Expert Review of Medical Devices, 10.1080/17434440.2017.1368386, 14, 9, (717-732), (2017).
  Crossref
• Sheva Naahidi, Mousa Jafari, Megan Logan, Yujie Wang, Yongfang Yuan, Hojae Bae, Brian Dixon and P. Chen, Biocompatibility of hydrogel-based scaffolds for tissue engineering applications, Biotechnology Advances, 10.1016/j.biotechadv.2017.05.006, 35, 5, (530-544), (2017).
  Crossref
• Rachael M. Kenney, C. Chad Lloyd, Nathan A. Whitman and Matthew R. Lockett, 3D cellular invasion platforms: how do paper-based cultures stack up?, Chem. Commun., 10.1039/C7CC02357J, 53, 53, (7194-7210), (2017).
  Crossref
• Anne Faust, Apoorva Kandakatla, Yolandi van der Merwe, Tanchen Ren, Luai Huleihel, George Hussey, Juan Diego Naranjo, Scott Johnson, Stephen Badylak and Michael Steketee, Urinary bladder extracellular matrix hydrogels and matrix-bound vesicles differentially regulate central nervous system neuron viability and axon growth and branching, Journal of Biomaterials Applications, 31, 9, (1277), (2017).
  Crossref
• Nikolce Gjorevski and Paloma Ordóñez-Morán, Intestinal Stem Cell Niche Insights Gathered from Both In Vivo and Novel In Vitro Models , Stem Cells International, 10.1155/2017/8387297, 2017, (1-10), (2017).
  Crossref
• Sabrina M. Hodgson, Stuart A. McNelles, Leonora Abdullahu, Ian A. Marozas, Kristi S. Anseth and Alex Adronov, Reproducible Dendronized PEG Hydrogels via SPAAC Cross-Linking, Biomacromolecules, 18, 12, (4054), (2017).
  Crossref
• Qinghua Xu, Zhen Zhang, Chunsheng Xiao, Chaoliang He and Xuesi Chen, Injectable Polypeptide Hydrogel as Biomimetic Scaffolds with Tunable Bioactivity and Controllable Cell Adhesion, Biomacromolecules, 10.1021/acs.biomac.7b00142, 18, 4, (1411-1418), (2017).
  Crossref
• H.M. Waldeck, A.D. Guerra and W.J. Kao, 2.7 Extracellular Matrix: Inspired Biomaterials ☆, Comprehensive Biomaterials II, 10.1016/B978-0-12-803581-8.10147-X, (132-146), (2017).
  Crossref
• Jingkun Bai, Zhongying Gong, Jingxin Wang and Chengdong Wang, Enzymatic hydrogelation of self-assembling peptide I 4 K 2 and its antibacterial and drug sustained-release activities , RSC Adv., 10.1039/C7RA09743C, 7, 77, (48631-48638), (2017).
  Crossref
• Changjiang Fan and Dong-An Wang, Macroporous Hydrogel Scaffolds for Three-Dimensional Cell Culture and Tissue Engineering, Tissue Engineering Part B: Reviews, 10.1089/ten.teb.2016.0465, 23, 5, (451-461), (2017).
  Crossref
• Jingzhou Yang, Yu Shrike Zhang, Kan Yue and Ali Khademhosseini, Cell-laden hydrogels for osteochondral and cartilage tissue engineering, Acta Biomaterialia, 10.1016/j.actbio.2017.01.036, 57, (1-25), (2017).
  Crossref
• Ibrahim T. Ozbolat, The Bioink ∗ ∗With contributions by Monika Hospodiuk and Madhuri Dey, The Pennsylvania State University., 3D Bioprinting, 10.1016/B978-0-12-803010-3.00003-2, (41-92), (2017).
  Crossref
• Liv Kalbitzer and Tilo Pompe, Fibril growth kinetics link buffer conditions and topology of 3D collagen I networks, Acta Biomaterialia, 10.1016/j.actbio.2017.11.051, (2017).
  Crossref
• Monika Hospodiuk, Madhuri Dey, Donna Sosnoski and Ibrahim T. Ozbolat, The bioink: A comprehensive review on bioprintable materials, Biotechnology Advances, 10.1016/j.biotechadv.2016.12.006, 35, 2, (217-239), (2017).
  Crossref
• Ye Fang and Richard M. Eglen, Three-Dimensional Cell Cultures in Drug Discovery and Development, SLAS DISCOVERY: Advancing Life Sciences R&D, 10.1177/1087057117696795, 22, 5, (456-472), (2017).
  Crossref
• A. Aijaz, D. Perera and Ronke M. Olabisi, Polymeric Materials for Cell Microencapsulation, Cell Microencapsulation, 10.1007/978-1-4939-6364-5_6, (79-93), (2016).
  Crossref
• Jun Liang, Xiuzhi Susan Sun, Zhilong Yang and Shuai Cao, Anticancer Drug Camptothecin Test in 3D Hydrogel Networks with HeLa cells, Scientific Reports, 7, (37626), (2017).
  Crossref
• Hwan Choi, Juhyun Song, Guiyeon Park and Jongpil Kim, Modeling of Autism Using Organoid Technology, Molecular Neurobiology, 10.1007/s12035-016-0274-8, 54, 10, (7789-7795), (2016).
  Crossref
• B.A. Pereira, N.L. Lister, E.M. De-Juan-Pardo, G.P. Risbridger and S.J. Ellem, 5.17 Three-Dimensional Bioengineered Cancer Models, Comprehensive Biomaterials II, 10.1016/B978-0-12-803581-8.09297-3, (303-328), (2017).
  Crossref
• Alex M. Jordan, Si-Eun Kim, Kristen Van de Voorde, Jonathan K. Pokorski and LaShanda T. J. Korley, In Situ Fabrication of Fiber Reinforced Three-Dimensional Hydrogel Tissue Engineering Scaffolds, ACS Biomaterials Science & Engineering, 10.1021/acsbiomaterials.7b00229, 3, 8, (1869-1879), (2017).
  Crossref
• Laura Brigo, Anna Urciuolo, Stefano Giulitti, Gioia Della Giustina, Maximilian Tromayer, Robert Liska, Nicola Elvassore and Giovanna Brusatin, 3D high-resolution two-photon crosslinked hydrogel structures for biological studies, Acta Biomaterialia, 55, (373), (2017).
  Crossref
• Koichiro Uto, Jonathan H. Tsui, Cole A. DeForest and Deok-Ho Kim, Dynamically tunable cell culture platforms for tissue engineering and mechanobiology, Progress in Polymer Science, 10.1016/j.progpolymsci.2016.09.004, 65, (53-82), (2017).
  Crossref
• Taylor B. Dorsey, Alexander Grath, Annling Wang, Cancan Xu, Yi Hong and Guohao Dai, Evaluation of photochemistry reaction kinetics to pattern bioactive proteins on hydrogels for biological applications, Bioactive Materials, 10.1016/j.bioactmat.2017.05.005, (2017).
  Crossref
• 方亭 许, Preparation and Its Influence of HA-DAP Hydrogel on the Biological Behavior of the Endothelial Cells, Material Sciences, 10.12677/MS.2017.73044, 07, 03, (323-330), (2017).
  Crossref
• M. Mario Perera and Neil Ayres, Gelatin based dynamic hydrogels via thiol–norbornene reactions, Polym. Chem., 10.1039/C7PY01630A, (2017).
  Crossref
• Gianpiero Lazzari, Patrick Couvreur and Simona Mura, Multicellular tumor spheroids: a relevant 3D model for the in vitro preclinical investigation of polymer nanomedicines, Polym. Chem., 10.1039/C7PY00559H, 8, 34, (4947-4969), (2017).
  Crossref
• Emi Y. Tokuda, Caitlin E. Jones and Kristi S. Anseth, PEG–peptide hydrogels reveal differential effects of matrix microenvironmental cues on melanoma drug sensitivity, Integr. Biol., 10.1039/C6IB00229C, 9, 1, (76-87), (2017).
  Crossref
• Payam E. Farahani, Steven M. Adelmund, Jared A. Shadish and Cole A. DeForest, Photomediated oxime ligation as a bioorthogonal tool for spatiotemporally-controlled hydrogel formation and modification, J. Mater. Chem. B, 10.1039/C6TB03400D, 5, 23, (4435-4442), (2017).
  Crossref
• Kevin M. Dean and Reto Fiolka, Lossless Three-Dimensional Parallelization in Digitally Scanned Light-Sheet Fluorescence Microscopy, Scientific Reports, 7, 1, (2017).
  Crossref
• S. Prakash Parthiban, Deepti Rana, Esmaiel Jabbari, Nadia Benkirane-Jessel and Murugan Ramalingam, Covalently immobilized VEGF-mimicking peptide with gelatin methacrylate enhances microvascularization of endothelial cells, Acta Biomaterialia, 10.1016/j.actbio.2017.01.046, 51, (330-340), (2017).
  Crossref
• Swapneel R. Deshpande, Roel Hammink, Frank H. T. Nelissen, Alan E. Rowan and Hans A. Heus, Biomimetic Stress Sensitive Hydrogel Controlled by DNA Nanoswitches, Biomacromolecules, 18, 10, (3310), (2017).
  Crossref
• Xiupeng Li, Yingying Teng, Jun Liu, Hai Lin, Yujiang Fan and Xingdong Zhang, Chondrogenic differentiation of BMSCs encapsulated in chondroinductive polysaccharide/collagen hybrid hydrogels, J. Mater. Chem. B, 10.1039/C7TB01020F, 5, 26, (5109-5119), (2017).
  Crossref
• Devin T. Bridgen, Bailey V. Fearing, Liufang Jing, Johannah Sanchez-Adams, Megan C. Cohan, Farshid Guilak, Jun Chen and Lori A. Setton, Regulation of human nucleus pulposus cells by peptide-coupled substrates, Acta Biomaterialia, 10.1016/j.actbio.2017.04.019, 55, (100-108), (2017).
  Crossref
• Sreekanth Pentlavalli, Helen O. McCarthy and Nicholas J. Dunne, The Mechanical Properties of the Scaffolds Reinforced by Fibres or Tubes for Tissue Repair, Tissue Repair, 10.1007/978-981-10-3554-8_3, (79-111), (2017).
  Crossref
• Mohammad A. Kaisar, Ravi K. Sajja, Shikha Prasad, Vinay V. Abhyankar, Taylor Liles and Luca Cucullo, New experimental models of the blood-brain barrier for CNS drug discovery, Expert Opinion on Drug Discovery, 10.1080/17460441.2017.1253676, 12, 1, (89-103), (2016).
  Crossref
2017 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC) Jeju Island, South Korea 2017 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC) IEEE , (2017). 978-1-5090-2809-2 Zongjie Wang, Zhenlin Tian, Xian Jin, Jonathan F. Holzman, Frederic Menard and Keekyoung Kim Visible light-based stereolithography bioprinting of cell-adhesive gelatin hydrogels , (2017). 1599 1602 8037144 , 10.1109/EMBC.2017.8037144 http://ieeexplore.ieee.org/document/8037144/
• Abbygail A Foster, Laura M Marquardt and Sarah C Heilshorn, The diverse roles of hydrogel mechanics in injectable stem cell transplantation, Current Opinion in Chemical Engineering, 10.1016/j.coche.2016.11.003, 15, (15-23), (2017).
  Crossref
• Seema Singh, Anshul Mishra, Rina Kumari, Kislay K. Sinha, Manoj K. Singh and Prolay Das, Carbon dots assisted formation of DNA hydrogel for sustained release of drug, Carbon, 10.1016/j.carbon.2016.12.020, 114, (169-176), (2017).
  Crossref
• Ravi Sinha, Nico Verdonschot, Bart Koopman and Jeroen Rouwkema, Tuning Cell and Tissue Development by Combining Multiple Mechanical Signals, Tissue Engineering Part B: Reviews, 10.1089/ten.teb.2016.0500, 23, 5, (494-504), (2017).
  Crossref
• Jenna L. Wilson and Todd C. McDevitt, Biofunctional Hydrogels for Three-Dimensional Stem Cell Culture, Biology and Engineering of Stem Cell Niches, 10.1016/B978-0-12-802734-9.00022-6, (345-362), (2017).
  Crossref
• Julian Adolfo Preciado, Eduardo Reátegui, Samira M. Azarin, Emil Lou and Alptekin Aksan, Immobilization platform to induce quiescence in dormancy-capable cancer cells, TECHNOLOGY, 05, 03, (129), (2017).
  Crossref
• Peter Worthington, Katherine M. Drake, Zhiqin Li, Andrew D. Napper, Darrin J. Pochan and Sigrid A. Langhans, Beta-hairpin hydrogels as scaffolds for high-throughput drug discovery in three-dimensional cell culture, Analytical Biochemistry, 535, (25), (2017).
  Crossref
• Mitchell Boyd-Moss, Kate Fox, Milan Brandt, David Nisbet and Richard Williams, Bioprinting and Biofabrication with Peptide and Protein Biomaterials, Peptides and Peptide-based Biomaterials and their Biomedical Applications, 10.1007/978-3-319-66095-0_5, (95-129), (2017).
  Crossref
• Ross J. DeVolder, Yongbeom Seo and Hyunjoon Kong, Proangiogenic alginate-g-pyrrole hydrogel with decoupled control of mechanical rigidity and electrically conductivity, Biomaterials Research, 21, 1, (2017).
  Crossref
• Raja Summe Ullah, Li Wang, Haojie Yu, Nasir M. Abbasi, Muhammad Akram, Zain -ul-Abdin, Muhammad Saleem, Muhammad Haroon and Rizwan Ullah Khan, Synthesis of polyphosphazenes with different side groups and various tactics for drug delivery, RSC Adv., 10.1039/C6RA27103K, 7, 38, (23363-23391), (2017).
  Crossref
• Jing Wu, Qiushui Chen, Wu Liu, Ziyi He and Jin-Ming Lin, Recent advances in microfluidic 3D cellular scaffolds for drug assays, TrAC Trends in Analytical Chemistry, 10.1016/j.trac.2016.11.009, 87, (19-31), (2017).
  Crossref
• Shivaprasad Manchineella, N. Arul Murugan and Thimmaiah Govindaraju, Cyclic Dipeptide-Based Ambidextrous Supergelators: Minimalistic Rational Design, Structure-Gelation Studies, and In Situ Hydrogelation, Biomacromolecules, 10.1021/acs.biomac.7b00924, 18, 11, (3581-3590), (2017).
  Crossref
• Matthew R. Arkenberg and Chien-Chi Lin, Orthogonal enzymatic reactions for rapid crosslinking and dynamic tuning of PEG–peptide hydrogels, Biomater. Sci., 10.1039/C7BM00691H, 5, 11, (2231-2240), (2017).
  Crossref
• Chiara Finetti, Laura Sola, Jim Elliott and Marcella Chiari, Synthesis of hydrogel via click chemistry for DNA electrophoresis, Journal of Chromatography A, 1513, (226), (2017).
  Crossref
• Dylan C. Young, Isabel G. Newsome and Jan Scrimgeour, Incorporation of soft shaped hydrogel sheets into microfluidic systems using a simple adhesion masking process, Applied Physics Letters, 111, 26, (263705), (2017).
  Crossref
• Ke Yang, Jing Sun, Dan Wei, Lu Yuan, Jirong Yang, Likun Guo, Hongsong Fan and Xingdong Zhang, Photo-crosslinked mono-component type II collagen hydrogel as a matrix to induce chondrogenic differentiation of bone marrow mesenchymal stem cells, Journal of Materials Chemistry B, 10.1039/C7TB02348K, 5, 44, (8707-8718), (2017).
  Crossref
• Neil O’Donnell and Ruslan I. Dmitriev, Three-Dimensional Tissue Models and Available Probes for Multi-Parametric Live Cell Microscopy: A Brief Overview, Multi-Parametric Live Cell Microscopy of 3D Tissue Models, 10.1007/978-3-319-67358-5_4, (49-67), (2017).
  Crossref
• Kajsa Markstedt, Wenyang Xu, Jun Liu, Chunlin Xu and Paul Gatenholm, Synthesis of tunable hydrogels based on O -acetyl-galactoglucomannans from spruce, Carbohydrate Polymers, 157, (1349), (2017).
  Crossref
• Behnam Maleki, Fatemeh Tabandeh, Zahra-Soheila Soheili and Dina Morshedi, Application of proteinous nanofibrils to culture retinal pigmented epithelium cells: A versatile biomaterial, Reactive and Functional Polymers, 10.1016/j.reactfunctpolym.2017.03.011, 115, (36-42), (2017).
  Crossref
• D.P. Pacheco, L. Zorzetto and P. Petrini, Soft tissue application of biocomposites, Biomedical Composites, 10.1016/B978-0-08-100752-5.00004-4, (59-82), (2017).
  Crossref
• Ritu Goyal, Murat Guvendiren, Onyi Freeman, Yong Mao and Joachim Kohn, Optimization of Polymer-ECM Composite Scaffolds for Tissue Engineering: Effect of Cells and Culture Conditions on Polymeric Nanofiber Mats, Journal of Functional Biomaterials, 8, 4, (1), (2017).
  Crossref
• Stanley Chu, Shankar Lalitha Sridhar, Umut Akalp, Stacey C. Skaalure, Franck J. Vernerey and Stephanie J. Bryant, Understanding the Spatiotemporal Degradation Behavior of Aggrecanase-Sensitive Poly(ethylene glycol) Hydrogels for Use in Cartilage Tissue Engineering , Tissue Engineering Part A, 10.1089/ten.tea.2016.0490, 23, 15-16, (795-810), (2017).
  Crossref
• Gustav Nyström, Wye-Khay Fong and Raffaele Mezzenga, Ice-Templated and Cross-Linked Amyloid Fibril Aerogel Scaffolds for Cell Growth, Biomacromolecules, 10.1021/acs.biomac.7b00792, 18, 9, (2858-2865), (2017).
  Crossref
• Shilpa Sant and Paul A. Johnston, The production of 3D tumor spheroids for cancer drug discovery, Drug Discovery Today: Technologies, 23, (27), (2017).
  Crossref
• Yeshma Jugdawa, Archana Bhaw-Luximon, Daniel Wesner, Nowsheen Goonoo, Holger Schönherr and Dhanjay Jhurry, Polysucrose-based hydrogels for loading of small molecules and cell growth, Reactive and Functional Polymers, 115, (18), (2017).
  Crossref
• Bapi Gorain, Muktika Tekade, Prashant Kesharwani, Arun K. Iyer, Kiran Kalia and Rakesh Kumar Tekade, The use of nanoscaffolds and dendrimers in tissue engineering, Drug Discovery Today, 10.1016/j.drudis.2016.12.007, 22, 4, (652-664), (2017).
  Crossref
• Dino J. Ravnic, Ashley N. Leberfinger, Srinivas V. Koduru, Monika Hospodiuk, Kazim K. Moncal, Pallab Datta, Madhuri Dey, Elias Rizk and Ibrahim T. Ozbolat, Transplantation of Bioprinted Tissues and Organs, Annals of Surgery, 10.1097/SLA.0000000000002141, 266, 1, (48-58), (2017).
  Crossref
• Cristina Martín, Sonia Merino, Jose M. González-Domínguez, Rossana Rauti, Laura Ballerini, Maurizio Prato and Ester Vázquez, Graphene Improves the Biocompatibility of Polyacrylamide Hydrogels: 3D Polymeric Scaffolds for Neuronal Growth, Scientific Reports, 7, 1, (2017).
  Crossref
• Yong X. Chen, Brian Cain and Pranav Soman, Gelatin methacrylate-alginate hydrogel with tunable viscoelastic properties, AIMS Materials Science, 10.3934/matersci.2017.2.363, 4, 2, (363-369), (2017).
  Crossref
• Olga J. G. M. Goor, Simone I. S. Hendrikse, Patricia Y. W. Dankers and E. W. Meijer, From supramolecular polymers to multi-component biomaterials, Chem. Soc. Rev., 10.1039/C7CS00564D, 46, 21, (6621-6637), (2017).
  Crossref
• Sophia Leung, Susan Read McGlashan, David Shaun Paul Musson, Jillian Cornish, Iain Alexander Anderson and Vickie Bo Kyung Shim, Investigations of Strain Fields in 3D Hydrogels Under Dynamic Confined Loading, Journal of Medical and Biological Engineering, (2017).
  Crossref
• Haishui Huang, Yin Yu, Yong Hu, Xiaoming He, O. Berk Usta and Martin L. Yarmush, Generation and manipulation of hydrogel microcapsules by droplet-based microfluidics for mammalian cell culture, Lab Chip, 10.1039/C7LC00262A, 17, 11, (1913-1932), (2017).
  Crossref
• Wensheng Xie, Qin Gao, Zhenhu Guo, Dan Wang, Fei Gao, Xiumei Wang, Yen Wei and Lingyun Zhao, Injectable and Self-Healing Thermosensitive Magnetic Hydrogel for Asynchronous Control Release of Doxorubicin and Docetaxel to Treat Triple-Negative Breast Cancer, ACS Applied Materials & Interfaces, 9, 39, (33660), (2017).
  Crossref
• Filippos Tourlomousis and Robert C. Chang, Dimensional Metrology of Cell-matrix Interactions in 3D Microscale Fibrous Substrates, Procedia CIRP, 65, (32), (2017).
  Crossref
• Ye Liu, Elisabeth Gill and Yan Yan Shery Huang, Microfluidic on-chip biomimicry for 3D cell culture: a fit-for-purpose investigation from the end user standpoint, Future Science OA, 10.4155/fsoa-2016-0084, 3, 2, (FSO173), (2017).
  Crossref
• T. I. Zarembinski, B. J. Engel, N. J. Doty, P. E. Constantinou, M. V. Onorato, I. E. Erickson, E. L. S. Fong, M. Martinez, R. L. Milton, B. P. Danysh, N. A. Delk, D. A. Harrington, M. C. Farach‐Carson and D. D. Carson, HyStem®, a customisable hyaluronan‐based hydrogel matrix for 3D cell culture, Technology Platforms for 3D Cell Culture, (173-196), (2017).
  Wiley Online Library
• Ryota Tamate, Kotomi Takahashi, Takeshi Ueki, Aya Mizutani Akimoto and Ryo Yoshida, Self-Assembly of Thermoreversible Hydrogels via Molecular Recognition toward a Spatially Organized Coculture System, Biomacromolecules, 10.1021/acs.biomac.6b01672, 18, 1, (281-287), (2017).
  Crossref
• Carmela Rianna, Prem Kumar and Manfred Radmacher, The role of the microenvironment in the biophysics of cancer, Seminars in Cell & Developmental Biology, 10.1016/j.semcdb.2017.07.022, (2017).
  Crossref
• S.M. Ruff, S. Keller, D.E. Wieland, V. Wittmann, G.E.M. Tovar, M. Bach and P.J. Kluger, click ECM: Development of a cell-derived extracellular matrix with azide functionalities, Acta Biomaterialia, 10.1016/j.actbio.2016.12.022, 52, (159-170), (2017).
  Crossref
2017 IEEE 17th International Conference on Nanotechnology (IEEE-NANO), (2017).Huacan Lin, Kun Yin, Zhen Fan, Jianjie Ma and Mingjun ZhangIntegrating tea nanoparticle with short peptides to generate tunable hydrogel scaffolds for diabetic ulcer86610.1109/NANO.2017.8117363
• Sara Shafaie, Victoria Hutter, Marc B. Brown, Michael T. Cook, David Y. S. Chau and Che John Connon, Influence of surface geometry on the culture of human cell lines: A comparative study using flat, round-bottom and v-shaped 96 well plates, PLOS ONE, 12, 10, (e0186799), (2017).
  Crossref
• Yin Chen, Lu Huang, Xin Dai, Qian Tian, Miao Yu, Maria Agheb, Ho Nam Chan, Ellen Poon, Zhihong Guo, Kenneth Richard Boheler and Hongkai Wu, Facile formation of a microporous chitosan hydrogel based on self-crosslinking, Journal of Materials Chemistry B, 10.1039/C7TB02736B, 5, 47, (9291-9299), (2017).
  Crossref
• Teunis van Manen, Shahram Janbaz and Amir A. Zadpoor, Programming the shape-shifting of flat soft matter, Materials Today, 10.1016/j.mattod.2017.08.026, (2017).
  Crossref
• Shimoga Ganesh, Nabanita Saha, Ronald Zuckermann and Petr Sáha, Ethyl({[acryloyl(furan-2-ylmethyl)amino]acetyl}amino)acetate, Molbank, 2017, 4, (M925), (2017).
  Crossref
• Bruce E. Heck, Joshua J. Park, Vishruti Makani, Eun-Cheol Kim and Dong Hyun Kim, PPAR-δ Agonist With Mesenchymal Stem Cells Induces Type II Collagen-Producing Chondrocytes in Human Arthritic Synovial Fluid, Cell Transplantation, 10.1177/0963689717720278, 26, 8, (1405-1417), (2017).
  Crossref
• Johnny Lam, Esther J. Lee, Elisa C. Clark and Antonios G. Mikos, Honing Cell and Tissue Culture Conditions for Bone and Cartilage Tissue Engineering, Cold Spring Harbor Perspectives in Medicine, 10.1101/cshperspect.a025734, 7, 12, (a025734), (2017).
  Crossref
• Hung-Yi Liu, Tanja Greene, Tsai-Yu Lin, Camron S. Dawes, Murray Korc and Chien-Chi Lin, Enzyme-mediated stiffening hydrogels for probing activation of pancreatic stellate cells, Acta Biomaterialia, 10.1016/j.actbio.2016.10.027, 48, (258-269), (2017).
  Crossref
• Guoyou Huang, Fei Li, Xin Zhao, Yufei Ma, Yuhui Li, Min Lin, Guorui Jin, Tian Jian Lu, Guy M. Genin and Feng Xu, Functional and Biomimetic Materials for Engineering of the Three-Dimensional Cell Microenvironment, Chemical Reviews, 10.1021/acs.chemrev.7b00094, 117, 20, (12764-12850), (2017).
  Crossref
• Natsuko Yamagata, Xiaoyi Chen, Jie Zhou, Jie Li, Xuewen Du and Bing Xu, Enzymatic self-assembly of an immunoreceptor tyrosine-based inhibitory motif (ITIM), Organic & Biomolecular Chemistry, 15, 27, (5689), (2017).
  Crossref
• Atsadaporn Tangprasert, Chittreeya Tansakul, Nuttawut Thuaksubun and Jirut Meesane, Mimicked extracellular matrix of calcified soft tissue based on chitosan/gelatin/compounded calcium phosphate hydrogel to design ex vivo model for heterotopic ossification, Materials & Design, 134, (486), (2017).
  Crossref
• Cristina Colosi, Su Ryon Shin, Vijayan Manoharan, Solange Massa, Marco Costantini, Andrea Barbetta, Mehmet Remzi Dokmeci, Mariella Dentini and Ali Khademhosseini, Microfluidic Bioprinting of Heterogeneous 3D Tissue Constructs Using Low‐Viscosity Bioink, Advanced Materials, 28, 4, (677-684), (2015).
  Wiley Online Library
• Anuraag Boddupalli, Lida Zhu and Kaitlin M. Bratlie, Methods for Implant Acceptance and Wound Healing: Material Selection and Implant Location Modulate Macrophage and Fibroblast Phenotypes, Advanced Healthcare Materials, 5, 20, (2575-2594), (2016).
  Wiley Online Library
• Umile Gianfranco Spizzirri, Manuela Curcio, Giuseppe Cirillo, Nevio Picci, Fiore Pasquale Nicoletta and Francesca Iemma, Functional hydrogels with a multicatalytic activity for bioremediation: Single‐step preparation and characterization, Journal of Applied Polymer Science, 133, 17, (2016).
  Wiley Online Library
• Lawrence J. Dooling, Maren E. Buck, Wen‐Bin Zhang and David A. Tirrell, Programming Molecular Association and Viscoelastic Behavior in Protein Networks, Advanced Materials, 28, 23, (4651-4657), (2016).
  Wiley Online Library
• Uwe Freudenberg, Yingkai Liang, Kristi L. Kiick and Carsten Werner, Glycosaminoglycan‐Based Biohybrid Hydrogels: A Sweet and Smart Choice for Multifunctional Biomaterials, Advanced Materials, 28, 40, (8861-8891), (2016).
  Wiley Online Library
• Ritu Raman, Basanta Bhaduri, Mustafa Mir, Artem Shkumatov, Min Kyung Lee, Gabriel Popescu, Hyunjoon Kong and Rashid Bashir, High‐Resolution Projection Microstereolithography for Patterning of Neovasculature, Advanced Healthcare Materials, 5, 5, (610-619), (2015).
  Wiley Online Library
• Jiaqing Yu, Tzu‐Rung Huang, Zhen Han Lim, Rongcong Luo, Rupali Reddy Pasula, Lun‐De Liao, Sierin Lim and Chia‐Hung Chen, Production of Hollow Bacterial Cellulose Microspheres Using Microfluidics to Form an Injectable Porous Scaffold for Wound Healing, Advanced Healthcare Materials, 5, 23, (2983-2992), (2016).
  Wiley Online Library
• Shuxin Xu, Liandong Deng, Jianhua Zhang, Li Yin and Anjie Dong, Composites of electrospun‐fibers and hydrogels: A potential solution to current challenges in biological and biomedical field, Journal of Biomedical Materials Research Part B: Applied Biomaterials, 104, 3, (640-656), (2015).
  Wiley Online Library
• Haryanto, Deepti Singh, Pil Ho Huh and Seong Cheol Kim, Hyperbranched poly(glycidol)/poly(ethylene oxide) crosslinked hydrogel for tissue engineering scaffold using e‐beams, Journal of Biomedical Materials Research Part A, 104, 1, (48-56), (2015).
  Wiley Online Library
• John M. Heffernan, Derek J. Overstreet, Sanjay Srinivasan, Long D. Le, Brent L. Vernon and Rachael W. Sirianni, Temperature responsive hydrogels enable transient three‐dimensional tumor cultures via rapid cell recovery, Journal of Biomedical Materials Research Part A, 104, 1, (17-25), (2015).
  Wiley Online Library
• Shinji Sugiura, Jae Min Cha, Fumiki Yanagawa, Pinar Zorlutuna, Hojae Bae and Ali Khademhosseini, Dynamic three‐dimensional micropatterned cell co‐cultures within photocurable and chemically degradable hydrogels, Journal of Tissue Engineering and Regenerative Medicine, 10, 8, (690-699), (2013).
  Wiley Online Library
• Jing‐Xiao Chen, Lu‐Juan Cao, Yu Shi, Ping Wang and Jing‐Hua Chen, In situ supramolecular hydrogel based on hyaluronic acid and dextran derivatives as cell scaffold, Journal of Biomedical Materials Research Part A, 104, 9, (2263-2270), (2016).
  Wiley Online Library
• Jaejung Son, Chae Yun Bae and Je‐Kyun Park, Freestanding stacked mesh‐like hydrogel sheets enable the creation of complex macroscale cellular scaffolds, Biotechnology Journal, 11, 4, (585-591), (2016).
  Wiley Online Library
• Federica Fiorini, Eko Adi Prasetyanto, Francesca Taraballi, Laura Pandolfi, Francisco Monroy, Iván López‐Montero, Ennio Tasciotti and Luisa De Cola, Nanocomposite Hydrogels as Platform for Cells Growth, Proliferation, and Chemotaxis, Small, 12, 35, (4881-4893), (2016).
  Wiley Online Library
• Heqin Huang, Jianbin Xu, Kongchang Wei, Yang J. Xu, Chun Kit K. Choi, Meiling Zhu and Liming Bian, Bioactive Nanocomposite Poly (Ethylene Glycol) Hydrogels Crosslinked by Multifunctional Layered Double Hydroxides Nanocrosslinkers, Macromolecular Bioscience, 16, 7, (1019-1026), (2016).
  Wiley Online Library
• Annemie Houben, Nele Pien, Xi Lu, Francesca Bisi, Jasper Hoorick, Matthieu N. Boone, Patrice Roose, Hugues Bergen, Dirk Bontinck, Tim Bowden, Peter Dubruel and Sandra Vlierberghe, Indirect Solid Freeform Fabrication of an Initiator‐Free Photocrosslinkable Hydrogel Precursor for the Creation of Porous Scaffolds, Macromolecular Bioscience, 16, 12, (1883-1894), (2016).
  Wiley Online Library
• Shiqi Wang, Xiaoxue Liu, Ignacio J. Villar‐Garcia and Rongjun Chen, Amino Acid Based Hydrogels with Dual Responsiveness for Oral Drug Delivery, Macromolecular Bioscience, 16, 9, (1258-1264), (2016).
  Wiley Online Library
• Nicholas Bodenberger, Patrick Paul, Dennis Kubiczek, Paul Walther, Kay‐Eberhard Gottschalk and Frank Rosenau, A Novel Cheap and Easy to Handle Protein Hydrogel for 3D Cell Culture Applications: A High Stability Matrix with Tunable Elasticity and Cell Adhesion Properties, ChemistrySelect, 1, 7, (1353-1360), (2016).
  Wiley Online Library
• Karen Dubbin, Yuki Hori, Kazuomori K. Lewis and Sarah C. Heilshorn, Dual‐Stage Crosslinking of a Gel‐Phase Bioink Improves Cell Viability and Homogeneity for 3D Bioprinting, Advanced Healthcare Materials, 5, 19, (2488-2492), (2016).
  Wiley Online Library
• Anna Zahoranová, Zuzana Kroneková, Miroslav Zahoran, Dušan Chorvát, Ivica Janigová and Juraj Kronek, Poly(2‐oxazoline) hydrogels crosslinked with aliphatic bis(2‐oxazoline)s: Properties, cytotoxicity, and cell cultivation, Journal of Polymer Science Part A: Polymer Chemistry, 54, 11, (1548-1559), (2015).
  Wiley Online Library
• Takuya Murakami, Hugh R. Brown and Craig J. Hawker, One‐pot fabrication of robust interpenetrating hydrogels via orthogonal click reactions, Journal of Polymer Science Part A: Polymer Chemistry, 54, 11, (1459-1467), (2016).
  Wiley Online Library
• Yuehe Fu, Xuejiao Fan, Chunxiang Tian, Jingcong Luo, Yi Zhang, Li Deng, Tingwu Qin and Qing Lv, Decellularization of porcine skeletal muscle extracellular matrix for the formulation of a matrix hydrogel: a preliminary study, Journal of Cellular and Molecular Medicine, 20, 4, (740-749), (2016).
  Wiley Online Library
• Mark W. Tibbitt, Jared A. Shadish and Cole A. DeForest, Photopolymers for Multiphoton Lithography in Biomaterials and Hydrogels, Multiphoton Lithography, (183-220), (2016).
  Wiley Online Library
• Anna Lagunas, Anna Lagunas, David Caballero, David Caballero, Josep Samitier, Josep Samitier and Josep Samitier, Influence of Controlled Micro‐ and Nanoengineered Environments on Stem Cell Fate, Advanced Surfaces for Stem Cell Research, (87-141), (2016).
  Wiley Online Library
• Hamish T. J. Gilbert and Joe Swift, Molecular Pathways of Mechanotransduction, Mechanobiology, (23-42), (2016).
  Wiley Online Library
• James Veronick, Fayekah Assanah, Lakshmi S Nair, Varun Vyas, Bryan Huey and Yusuf Khan, The effect of acoustic radiation force on osteoblasts in cell/hydrogel constructs for bone repair, Experimental Biology and Medicine, 241, 10, (1149), (2016).
  Crossref
• Rona Chandrawati, Enzyme-responsive polymer hydrogels for therapeutic delivery, Experimental Biology and Medicine, 10.1177/1535370216647186, 241, 9, (972-979), (2016).
  Crossref
• Yibo Wu, Yong X. Chen, Jiahan Yan, David Quinn, Ping Dong, Stephen W. Sawyer and Pranav Soman, Fabrication of conductive gelatin methacrylate–polyaniline hydrogels, Acta Biomaterialia, 33, (122), (2016).
  Crossref
• Sritama Nath and Gayathri R. Devi, Three-dimensional culture systems in cancer research: Focus on tumor spheroid model, Pharmacology & Therapeutics, 10.1016/j.pharmthera.2016.03.013, 163, (94-108), (2016).
  Crossref
• Zhi-Qiang Duan, Ming Zhong, Fu-Kuan Shi and Xu-Ming Xie, Transparent h-BN/polyacrylamide nanocomposite hydrogels with enhanced mechanical properties, Chinese Chemical Letters, 27, 9, (1490), (2016).
  Crossref
• Ekin Çelik, Cem Bayram, Rümeysa Akçapınar, Mustafa Türk and Emir Baki Denkbaş, Calcified and mechanically debilitated three-dimensional hydrogel environment induces hypertrophic trend in chondrocytes, Journal of Bioactive and Compatible Polymers, 31, 5, (498), (2016).
  Crossref
• Hye Rin Kwag, Janna V. Serbo, Preethi Korangath, Saraswati Sukumar, Lewis H. Romer and David H. Gracias, A Self-Folding Hydrogel In Vitro Model for Ductal Carcinoma , Tissue Engineering Part C: Methods, 10.1089/ten.tec.2015.0442, 22, 4, (398-407), (2016).
  Crossref
• Sabrina M. Hodgson, Emilia Bakaic, S. Alison Stewart, Todd Hoare and Alex Adronov, Properties of Poly(ethylene glycol) Hydrogels Cross-Linked via Strain-Promoted Alkyne–Azide Cycloaddition (SPAAC), Biomacromolecules, 10.1021/acs.biomac.5b01711, 17, 3, (1093-1100), (2016).
  Crossref
• L. Li and K.L. Kiick, Resilin in the Engineering of Elastomeric Biomaterials, Reference Module in Materials Science and Materials Engineering, 10.1016/B978-0-12-803581-8.01496-X, (2016).
  Crossref
• Esmaiel Jabbari, Jeroen Leijten, Qiaobing Xu and Ali Khademhosseini, The matrix reloaded: the evolution of regenerative hydrogels, Materials Today, 19, 4, (190), (2016).
  Crossref
• David Chimene, Kimberly K. Lennox, Roland R. Kaunas and Akhilesh K. Gaharwar, Advanced Bioinks for 3D Printing: A Materials Science Perspective, Annals of Biomedical Engineering, 10.1007/s10439-016-1638-y, 44, 6, (2090-2102), (2016).
  Crossref
• Ming Hui Tong, Nan Huang, Wei Zhang, Zhuo Long Zhou, Alfonso Hing Wan Ngan, Yanan Du and Barbara Pui Chan, Multiphoton photochemical crosslinking-based fabrication of protein micropatterns with controllable mechanical properties for single cell traction force measurements, Scientific Reports, 10.1038/srep20063, 6, 1, (2016).
  Crossref
• Sonia Kapoor and Subhas C. Kundu, Silk protein-based hydrogels: Promising advanced materials for biomedical applications, Acta Biomaterialia, 10.1016/j.actbio.2015.11.034, 31, (17-32), (2016).
  Crossref
• Tihomir Pospišil, Lejla Ferhatović Hamzić, Lada Brkić Ahmed, Marija Lovrić, Srećko Gajović and Leo Frkanec, Synthesis, characterization and in vitro biocompatibility assessment of a novel tripeptide hydrogelator, as a promising scaffold for tissue engineering applications, Biomaterials Science, 4, 10, (1412), (2016).
  Crossref
• Nardine S. Abadeer and Catherine J. Murphy, Recent Progress in Cancer Thermal Therapy Using Gold Nanoparticles, The Journal of Physical Chemistry C, 10.1021/acs.jpcc.5b11232, 120, 9, (4691-4716), (2016).
  Crossref
• Cécile Echalier, Coline Pinese, Xavier Garric, Hélène Van Den Berghe, Estelle Jumas Bilak, Jean Martinez, Ahmad Mehdi and Gilles Subra, Easy Synthesis of Tunable Hybrid Bioactive Hydrogels, Chemistry of Materials, 10.1021/acs.chemmater.5b04881, 28, 5, (1261-1265), (2016).
  Crossref
• Annj Zamuner, Marta Cavo, Silvia Scaglione, Grazia Messina, Teresa Russo, Antonio Gloria, Giovanni Marletta and Monica Dettin, Design of Decorated Self-Assembling Peptide Hydrogels as Architecture for Mesenchymal Stem Cells, Materials, 9, 12, (727), (2016).
  Crossref
• Jie Huang, Han Fu, Zhiying Wang, Qingyuan Meng, Sumei Liu, Heran Wang, Xiongfei Zheng, Jianwu Dai and Zhijun Zhang, BMSCs-laden gelatin/sodium alginate/carboxymethyl chitosan hydrogel for 3D bioprinting, RSC Adv., 10.1039/C6RA24231F, 6, 110, (108423-108430), (2016).
  Crossref
• Amir Shamloo and Leyla Amirifar, A microfluidic device for 2D to 3D and 3D to 3D cell navigation, Journal of Micromechanics and Microengineering, 26, 1, (015003), (2016).
  Crossref
• Jacob H. Jordahl, Luis Villa-Diaz, Paul H. Krebsbach and Joerg Lahann, Engineered Human Stem Cell Microenvironments, Current Stem Cell Reports, 10.1007/s40778-016-0035-7, 2, 1, (73-84), (2016).
  Crossref
• Tapomoy Bhattacharjee, Carmen J. Gil, Samantha L. Marshall, Juan M. Urueña, Christopher S. O’Bryan, Matt Carstens, Benjamin Keselowsky, Glyn D. Palmer, Steve Ghivizzani, C. Parker Gibbs, W. Gregory Sawyer and Thomas E. Angelini, Liquid-like Solids Support Cells in 3D, ACS Biomaterials Science & Engineering, 10.1021/acsbiomaterials.6b00218, 2, 10, (1787-1795), (2016).
  Crossref
• S. Ryu, H. H. Kim, Y. H. Park, C.-C. Lin, I. C. Um and C. S. Ki, Dual mode gelation behavior of silk fibroin microgel embedded poly(ethylene glycol) hydrogels, J. Mater. Chem. B, 10.1039/C6TB00896H, 4, 26, (4574-4584), (2016).
  Crossref
• Cristiana Branco da Cunha, Darinka D. Klumpers, Sandeep T. Koshy, James C. Weaver, Ovijit Chaudhuri, Raquel Seruca, Fátima Carneiro, Pedro L. Granja and David J. Mooney, CD44 alternative splicing in gastric cancer cells is regulated by culture dimensionality and matrix stiffness, Biomaterials, 98, (152), (2016).
  Crossref
• Viktoria Planz, Claus-Michael Lehr and Maike Windbergs, In vitro models for evaluating safety and efficacy of novel technologies for skin drug delivery, Journal of Controlled Release, 10.1016/j.jconrel.2016.09.002, 242, (89-104), (2016).
  Crossref
• Chaekyu Kim, Lucas Shores, Qiongyu Guo, Ahmed Aly, Ok Hee Jeon, Do Hun Kim, Nicholas Bernstein, Rahul Bhattacharya, Jemin Jeremy Chae, Kevin J. Yarema and Jennifer H. Elisseeff, Electrospun Microfiber Scaffolds with Anti-Inflammatory Tributanoylated N-Acetyl- d -Glucosamine Promote Cartilage Regeneration , Tissue Engineering Part A, 10.1089/ten.tea.2015.0469, 22, 7-8, (689-697), (2016).
  Crossref
• Mônica Helena Monteiro do Nascimento and Christiane Bertachini Lombello, Hidrogéis a base de ácido hialurônico e quitosana para engenharia de tecido cartilaginoso, Polímeros, 26, 4, (360), (2016).
  Crossref
• Anu David, James Day and Ariella Shikanov, Immunoisolation to prevent tissue graft rejection: Current knowledge and future use, Experimental Biology and Medicine, 241, 9, (955), (2016).
  Crossref
• S.J. Bidarra, A.L. Torres and C.C. Barrias, Injectable Cell Delivery Systems Based on Alginate Hydrogels for Regenerative Therapies, Reference Module in Materials Science and Materials Engineering, 10.1016/B978-0-12-803581-8.04057-1, (2016).
  Crossref
• Adérito J. R. Amaral and George Pasparakis, Rapid Formation of Cell Aggregates and Spheroids Induced by a “Smart” Boronic Acid Copolymer, ACS Applied Materials & Interfaces, 10.1021/acsami.6b07911, 8, 35, (22930-22941), (2016).
  Crossref
• Zhaowei Chen, Qixin Wang, Mohammadnabi Asmani, Yan Li, Chang Liu, Changning Li, Julian M. Lippmann, Yun Wu and Ruogang Zhao, Lung Microtissue Array to Screen the Fibrogenic Potential of Carbon Nanotubes, Scientific Reports, 6, 1, (2016).
  Crossref
• Lakshminath Kundanati, Saket Singh, Biman Mandal, Tejas Murthy, Namrata Gundiah and Nicola Pugno, Fabrication and Mechanical Characterization of Hydrogel Infused Network Silk Scaffolds, International Journal of Molecular Sciences, 17, 12, (1631), (2016).
  Crossref
• Wen-Jing Du, Loic Reppel, Léonore Leger, Chantal Schenowitz, Celine Huselstein, Danièle Bensoussan, Edgardo D. Carosella, Zhong-Chao Han and Nathalie Rouas-Freiss, Mesenchymal Stem Cells Derived from Human Bone Marrow and Adipose Tissue Maintain Their Immunosuppressive Properties After Chondrogenic Differentiation: Role of HLA-G, Stem Cells and Development, 25, 19, (1454), (2016).
  Crossref
• Karin Lukas, Ulrich Thomas, André Gessner, Daniel Wehner, Thomas Schmid, Christof Schmid and Karla Lehle, Plasma functionalization of polycarbonaturethane to improve endothelialization—Effect of shear stress as a critical factor for biocompatibility control, Journal of Biomaterials Applications, 10.1177/0885328215626072, 30, 9, (1417-1428), (2016).
  Crossref
• Arundhati Bhowmick, Tapas Mitra, Arumugam Gnanamani, Manas Das and Patit Paban Kundu, Development of biomimetic nanocomposites as bone extracellular matrix for human osteoblastic cells, Carbohydrate Polymers, 141, (82), (2016).
  Crossref
• Bhuvaneswari Gurumurthy, Patrick C. Bierdeman and Amol V. Janorkar, Composition of elastin like polypeptide–collagen composite scaffold influences in vitro osteogenic activity of human adipose derived stem cells, Dental Materials, 10.1016/j.dental.2016.07.009, 32, 10, (1270-1280), (2016).
  Crossref
• Johannes C. Reichert, Ulrich Nöth, Arner Berner and Dietmar W. Hutmacher, Bone, Regenerative Medicine - from Protocol to Patient, 10.1007/978-3-319-28386-9_9, (289-304), (2016).
  Crossref
• Patrick J. S. King, M. Giovanna Lizio, Andrew Booth, Richard F. Collins, Julie E. Gough, Aline F. Miller and Simon J. Webb, A modular self-assembly approach to functionalised β-sheet peptide hydrogel biomaterials, Soft Matter, 12, 6, (1915), (2016).
  Crossref
• Xiufang Guo, Frank Sommerhage, Christopher McAleer, Candace Martin, Christopher Long, Ying Wang, Navaneetha Santhanam, Alisha Colon, Carlota Oleaga Sancho and James Hickman, In Vitro Modeling of Nervous System: Engineering of the Reflex Arc, Neural Engineering, 10.1007/978-3-319-31433-4_9, (261-298), (2016).
  Crossref
• Cleber A. Trujillo, Priscilla D. Negraes, Branka Hrvoj-Mihic, Mauro F.C. Lins, Katerina Semendeferi and Alysson R. Muotri, Brain in a Dish, Genomics, Circuits, and Pathways in Clinical Neuropsychiatry, 10.1016/B978-0-12-800105-9.00008-1, (117-132), (2016).
  Crossref
• Ke Hu, Naizhen Zhou, Yang Li, Siyu Ma, Zhaobin Guo, Meng Cao, Qiying Zhang, Jianfei Sun, Tianzhu Zhang and Ning Gu, Sliced Magnetic Polyacrylamide Hydrogel with Cell-Adhesive Microarray Interface: A Novel Multicellular Spheroid Culturing Platform, ACS Applied Materials & Interfaces, 10.1021/acsami.6b04112, 8, 24, (15113-15119), (2016).
  Crossref
• Jeremy A. Schaefer and Robert T. Tranquillo, Tissue Contraction Force Microscopy for Optimization of Engineered Cardiac Tissue, Tissue Engineering Part C: Methods, 22, 1, (76), (2016).
  Crossref
• Deepti Rana, Aleya Tabasum and Murugan Ramalingam, Cell-laden alginate/polyacrylamide beads as carriers for stem cell delivery: preparation and characterization, RSC Advances, 6, 25, (20475), (2016).
  Crossref
• Agnieszka Pastuła, Moritz Middelhoff, Anna Brandtner, Moritz Tobiasch, Bettina Höhl, Andreas H. Nuber, Ihsan Ekin Demir, Steffi Neupert, Patrick Kollmann, Gemma Mazzuoli-Weber and Michael Quante, Three-Dimensional Gastrointestinal Organoid Culture in Combination with Nerves or Fibroblasts: A Method to Characterize the Gastrointestinal Stem Cell Niche, Stem Cells International, 2016, (1), (2016).
  Crossref
• Tae Yong Lee, Ramasamy Praveenkumar, You-Kwan Oh, Kyubock Lee and Shin-Hyun Kim, Alginate microgels created by selective coalescence between core drops paired with an ultrathin shell, Journal of Materials Chemistry B, 10.1039/C6TB00580B, 4, 19, (3232-3238), (2016).
  Crossref
• Justin A Colacino, 3D human tissue culture: modeling environmental effects on the stem cell epigenome, Epigenomics, 10.2217/epi-2016-0107, 8, 11, (1453-1457), (2016).
  Crossref
• Y. Dong and W. Wang, In situ–formed bioactive hydrogels for delivery of stem cells and biomolecules for wound healing, Wound Healing Biomaterials, 10.1016/B978-1-78242-456-7.00014-3, (289-307), (2016).
  Crossref
• Rachel C. Hooper, Adam Jacoby, Ope Asanbe, Hector L. Osoria, Kerry A. Morrison, Karina Hernandez, Tatiana Boyko, Jeremiah Joyce, Wilminia Landford and Jason A. Spector, A Novel Three-Dimensional Platform to Investigate Neoangiogenesis, Transendothelial Migration, and Metastasis of MDAMB-231 Breast Cancer Cells, Plastic and Reconstructive Surgery, 138, 3, (472e), (2016).
  Crossref
• Shao-Jie Wang, Dong Jiang, Zheng-Zheng Zhang, Ai-Bing Huang, Yan-Song Qi, Hai-Jun Wang, Ji-Ying Zhang and Jia-Kuo Yu, Chondrogenic Potential of Peripheral Blood Derived Mesenchymal Stem Cells Seeded on Demineralized Cancellous Bone Scaffolds, Scientific Reports, 6, 1, (2016).
  Crossref
• L. R. Stevens, K. J. Gilmore, G. G. Wallace and M. in het Panhuis, Tissue engineering with gellan gum, Biomater. Sci., 10.1039/C6BM00322B, 4, 9, (1276-1290), (2016).
  Crossref
• Xiang Ren, Fuyou Wang, Cheng Chen, Xiaoyuan Gong, Li Yin and Liu Yang, Engineering zonal cartilage through bioprinting collagen type II hydrogel constructs with biomimetic chondrocyte density gradient, BMC Musculoskeletal Disorders, 17, 1, (2016).
  Crossref
• Elli Käpylä, Stephanie M. Delgado and Andrea M. Kasko, Shape-Changing Photodegradable Hydrogels for Dynamic 3D Cell Culture, ACS Applied Materials & Interfaces, 10.1021/acsami.6b05527, 8, 28, (17885-17893), (2016).
  Crossref
• Kazuyuki Oshima and Yoshiro Mitsukami, Anionic amphiphilic model conetworks synthesized by end-linking of tetra-arm copolymers, Polymer, 10.1016/j.polymer.2016.08.006, 100, (134-142), (2016).
  Crossref
• Chinmaya Mahapatra, Rajendra K. Singh, Jung-Ju Kim, Kapil D. Patel, Roman A. Perez, Jun-Hyeog Jang and Hae-Won Kim, Osteopromoting Reservoir of Stem Cells: Bioactive Mesoporous Nanocarrier/Collagen Gel through Slow-Releasing FGF18 and the Activated BMP Signaling, ACS Applied Materials & Interfaces, 10.1021/acsami.6b09769, 8, 41, (27573-27584), (2016).
  Crossref
• Joana F. S. Pereira, Nikhil T. Awatade, Cláudia A. Loureiro, Paulo Matos, Margarida D. Amaral and Peter Jordan, The third dimension: new developments in cell culture models for colorectal research, Cellular and Molecular Life Sciences, 10.1007/s00018-016-2258-2, 73, 21, (3971-3989), (2016).
  Crossref
• Omar Sallouh and Ralf Weberskirch, Facile formation of hydrogels by using functional precursor polymers and the chemoselective Staudinger coupling, Polymer, 10.1016/j.polymer.2016.01.066, 86, (189-196), (2016).
  Crossref
• Zhen Tao, Kang Peng, Yujiao Fan, Yunfei Liu and Haiyang Yang, Multi-stimuli responsive supramolecular hydrogels based on Fe3+ and diblock copolymer micelle complexation, Polymer Chemistry, 7, 7, (1405), (2016).
  Crossref
• Annalisa Chiappone, Erika Fantino, Ignazio Roppolo, Massimo Lorusso, Diego Manfredi, Paolo Fino, Candido Fabrizio Pirri and Flaviana Calignano, 3D Printed PEG-Based Hybrid Nanocomposites Obtained by Sol–Gel Technique, ACS Applied Materials & Interfaces, 10.1021/acsami.5b12578, 8, 8, (5627-5633), (2016).
  Crossref
• Dianyu Dong, Junjie Li, Man Cui, Jinmei Wang, Yuhang Zhou, Liu Luo, Yufei Wei, Lei Ye, Hong Sun and Fanglian Yao, In Situ “Clickable” Zwitterionic Starch-Based Hydrogel for 3D Cell Encapsulation, ACS Applied Materials & Interfaces, 10.1021/acsami.5b12141, 8, 7, (4442-4455), (2016).
  Crossref
• Rong Fan, Marine Piou, Evan Darling, Denis Cormier, Jun Sun and Jiandi Wan, Bio-printing cell-laden Matrigel–agarose constructs, Journal of Biomaterials Applications, 10.1177/0885328216669238, 31, 5, (684-692), (2016).
  Crossref
• Amr A Abdeen, Junmin Lee and Kristopher A Kilian, Capturing extracellular matrix properties in vitro: Microengineering materials to decipher cell and tissue level processes, Experimental Biology and Medicine, 10.1177/1535370216644532, 241, 9, (930-938), (2016).
  Crossref
• Jianyong Huang, Liangli Wang, Chunyang Xiong and Fan Yuan, Elastic hydrogel as a sensor for detection of mechanical stress generated by single cells grown in three-dimensional environment, Biomaterials, 10.1016/j.biomaterials.2016.04.024, 98, (103-112), (2016).
  Crossref
• Luis A Castillo Diaz, Mohamed Elsawy, Alberto Saiani, Julie E Gough and Aline F Miller, Osteogenic differentiation of human mesenchymal stem cells promotes mineralization within a biodegradable peptide hydrogel, Journal of Tissue Engineering, 10.1177/2041731416649789, 7, (204173141664978), (2016).
  Crossref
• Alisha Prasad, Kuldeep Mahato, Pranjal Chandra, Ananya Srivastava, Shrikrishna N. Joshi and Pawan Kumar Maurya, Bioinspired Composite Materials: Applications in Diagnostics and Therapeutics, Journal of Molecular and Engineering Materials, 10.1142/S2251237316400049, 04, 01, (1640004), (2016).
  Crossref
• Junqiang Hu, Alexander A. Gondarenko, Alex P. Dang, Keenan T. Bashour, Roddy S. O’Connor, Sunwoo Lee, Anastasia Liapis, Saba Ghassemi, Michael C. Milone, Michael P. Sheetz, Michael L. Dustin, Lance C. Kam and James C. Hone, High-Throughput Mechanobiology Screening Platform Using Micro- and Nanotopography, Nano Letters, 16, 4, (2198), (2016).
  Crossref
• S. Gennen, B. Grignard, J.-M. Thomassin, B. Gilbert, B. Vertruyen, C. Jerome and C. Detrembleur, Polyhydroxyurethane hydrogels: Synthesis and characterizations, European Polymer Journal, 10.1016/j.eurpolymj.2016.07.013, 84, (849-862), (2016).
  Crossref
• Xiaoming Liu, Carlos Carbonell and Adam B. Braunschweig, Towards scanning probe lithography-based 4D nanoprinting by advancing surface chemistry, nanopatterning strategies, and characterization protocols, Chem. Soc. Rev., 10.1039/C6CS00349D, 45, 22, (6289-6310), (2016).
  Crossref
• Karson Brooks, Jeremy Yatvin, Christopher D. McNitt, R. Alexander Reese, Calvin Jung, Vladimir V. Popik and Jason Locklin, Multifunctional Surface Manipulation Using Orthogonal Click Chemistry, Langmuir, 32, 26, (6600), (2016).
  Crossref
• Qinghua Xu, Chaoliang He, Zhen Zhang, Kaixuan Ren and Xuesi Chen, Injectable, Biomolecule-Responsive Polypeptide Hydrogels for Cell Encapsulation and Facile Cell Recovery through Triggered Degradation, ACS Applied Materials & Interfaces, 10.1021/acsami.6b08292, 8, 45, (30692-30702), (2016).
  Crossref
• Graham J. Hickman, David J. Boocock, A. Graham Pockley and Carole C. Perry, The Importance and Clinical Relevance of Surfaces in Tissue Culture, ACS Biomaterials Science & Engineering, 10.1021/acsbiomaterials.5b00403, 2, 2, (152-164), (2016).
  Crossref
• Koki Yoshida and Hiroaki Onoe, Formation of Hydrogel Microspring by using Bevel-tip Capillary for Soft Actuator, IEEJ Transactions on Sensors and Micromachines, 10.1541/ieejsmas.136.398, 136, 9, (398-403), (2016).
  Crossref
• Asha K. Patel, Mark W. Tibbitt, Adam D. Celiz, Martyn C. Davies, Robert Langer, Chris Denning, Morgan R. Alexander and Daniel G. Anderson, High throughput screening for discovery of materials that control stem cell fate, Current Opinion in Solid State and Materials Science, 10.1016/j.cossms.2016.02.002, 20, 4, (202-211), (2016).
  Crossref
• P. Sabhachandani, V. Motwani, N. Cohen, S. Sarkar, V. Torchilin and T. Konry, Generation and functional assessment of 3D multicellular spheroids in droplet based microfluidics platform, Lab on a Chip, 16, 3, (497), (2016).
  Crossref
• Swarnalatha Balasubramanian, John A. Packard, Jennie B. Leach and Elizabeth M. Powell, Three-Dimensional Environment Sustains Morphological Heterogeneity and Promotes Phenotypic Progression During Astrocyte Development, Tissue Engineering Part A, 22, 11-12, (885), (2016).
  Crossref
• Suil Shin, Muhammad Ikram, Fazli Subhan, Hae Yeong Kang, Yeseon Lim, Rira Lee, Songwan Jin, Young Hun Jeong, Jong-Young Kwak, Yong-Jin Na and Sik Yoon, Alginate–marine collagen–agarose composite hydrogels as matrices for biomimetic 3D cell spheroid formation, RSC Adv., 10.1039/C6RA01937D, 6, 52, (46952-46965), (2016).
  Crossref
• Anuradha D. Arya, Pavan M. Hallur, Abhijith G. Karkisaval, Aditi Gudipati, Satheesh Rajendiran, Vaibhav Dhavale, Balaji Ramachandran, Aravindakshan Jayaprakash, Namrata Gundiah and Aditya Chaubey, Gelatin Methacrylate Hydrogels as Biomimetic Three-Dimensional Matrixes for Modeling Breast Cancer Invasion and Chemoresponse in Vitro, ACS Applied Materials & Interfaces, 10.1021/acsami.6b06309, 8, 34, (22005-22017), (2016).
  Crossref
• Sun-Mi Lee, Nalae Han, Rimi Lee, In-Hong Choi, Yong-Beom Park, Jeon-Soo Shin and Kyung-Hwa Yoo, Real-time monitoring of 3D cell culture using a 3D capacitance biosensor, Biosensors and Bioelectronics, 77, (56), (2016).
  Crossref
• Molly M. Morgan, Brian P. Johnson, Megan K. Livingston, Linda A. Schuler, Elaine T. Alarid, Kyung E. Sung and David J. Beebe, Personalized in vitro cancer models to predict therapeutic response: Challenges and a framework for improvement, Pharmacology & Therapeutics, 10.1016/j.pharmthera.2016.05.007, 165, (79-92), (2016).
  Crossref
• B. Rossi, V. Venuti, F. D'Amico, A. Gessini, A. Mele, C. Punta, L. Melone, V. Crupi, D. Majolino and C. Masciovecchio, Guest–matrix interactions affect the solvation of cyclodextrin-based polymeric hydrogels: a UV Raman scattering study, Soft Matter, 10.1039/C6SM01647B, 12, 43, (8861-8868), (2016).
  Crossref
• Elisabete C. Costa, André F. Moreira, Duarte de Melo-Diogo, Vítor M. Gaspar, Marco P. Carvalho and Ilídio J. Correia, 3D tumor spheroids: an overview on the tools and techniques used for their analysis, Biotechnology Advances, 10.1016/j.biotechadv.2016.11.002, 34, 8, (1427-1441), (2016).
  Crossref
• Peter Flood, Henry Page and Emmanuel G. Reynaud, Using hydrogels in microscopy: A tutorial, Micron, 10.1016/j.micron.2016.02.002, 84, (7-16), (2016).
  Crossref
• Steven J. Shirbin, Fatemeh Karimi, Nicholas Jun-An Chan, Daniel E. Heath and Greg G. Qiao, Macroporous Hydrogels Composed Entirely of Synthetic Polypeptides: Biocompatible and Enzyme Biodegradable 3D Cellular Scaffolds, Biomacromolecules, 17, 9, (2981), (2016).
  Crossref
• Frans Schutgens, Marianne C. Verhaar and Maarten B. Rookmaaker, Pluripotent stem cell-derived kidney organoids: An in vivo-like in vitro technology, European Journal of Pharmacology, 10.1016/j.ejphar.2016.06.059, 790, (12-20), (2016).
  Crossref
• Daheui Choi, Jiwoong Heo, Joo Hee Park, Yeonho Jo, Hyejoong Jeong, Minwook Chang, Jonghoon Choi and Jinkee Hong, Nano-film coatings onto collagen hydrogels with desired drug release, Journal of Industrial and Engineering Chemistry, 10.1016/j.jiec.2016.02.023, 36, (326-333), (2016).
  Crossref
• Anumon V. Divakaran, Lal B. Azad, Sachin S. Surwase, Arun Torris A. T. and Manohar V. Badiger, Mechanically Tunable Curcumin Incorporated Polyurethane Hydrogels as Potential Biomaterials, Chemistry of Materials, 10.1021/acs.chemmater.5b04964, 28, 7, (2120-2130), (2016).
  Crossref
• CF Soon, KT Thong, KS Tee, AB Ismail, M Denyer, MK Ahmad, YH Kong, P Vyomesh and SC Cheong, A scaffoldless technique for self-generation of three-dimensional keratinospheroids on liquid crystal surfaces, Biotechnic & Histochemistry, 91, 4, (283), (2016).
  Crossref
• Candice Sears and Roland Kaunas, The many ways adherent cells respond to applied stretch, Journal of Biomechanics, 49, 8, (1347), (2016).
  Crossref
• Malar A. Azagarsamy, Ian A. Marozas, Sergio Spaans and Kristi S. Anseth, Photoregulated Hydrazone-Based Hydrogel Formation for Biochemically Patterning 3D Cellular Microenvironments, ACS Macro Letters, 10.1021/acsmacrolett.5b00682, 5, 1, (19-23), (2016).
  Crossref
• Marta Cavo, Marco Fato, Leonardo Peñuela, Francesco Beltrame, Roberto Raiteri and Silvia Scaglione, Microenvironment complexity and matrix stiffness regulate breast cancer cell activity in a 3D in vitro model, Scientific Reports, 10.1038/srep35367, 6, 1, (2016).
  Crossref
• Ryosuke Ogaki, Ole Zoffmann Andersen and Morten Foss, Guided Cellular Responses by Surface Cues for Nanomedicine Applications, Nanomedicine, 10.1007/978-1-4939-3634-2_14, (343-372), (2016).
  Crossref
• Qi Gu, He Zhu, Jing Li, Xia Li, Jie Hao, Gordon G. Wallace and Qi Zhou, Three-dimensional bioprinting speeds up smart regenerative medicine, National Science Review, 10.1093/nsr/nww037, 3, 3, (331-344), (2016).
  Crossref
• Sarah-Louise Ryan, Anne-Marie Baird, Gisela Vaz, Aaron J. Urquhart, hias Senge, Derek J. Richard, Kenneth J. O'Byrne and Anthony M. Davies, Drug Discovery Approaches Utilizing Three-Dimensional Cell Culture, ASSAY and Drug Development Technologies, 14, 1, (19), (2016).
  Crossref
• Steven R. Caliari, Sebastián L. Vega, Michelle Kwon, Elizabeth M. Soulas and Jason A. Burdick, Dimensionality and spreading influence MSC YAP/TAZ signaling in hydrogel environments, Biomaterials, 10.1016/j.biomaterials.2016.06.061, 103, (314-323), (2016).
  Crossref
• Ekin Çelik, Cem Bayram, Rümeysa Akçapınar, Mustafa Türk and Emir Baki Denkbaş, The effect of calcium chloride concentration on alginate/Fmoc-diphenylalanine hydrogel networks, Materials Science and Engineering: C, 66, (221), (2016).
  Crossref
2016 IEEE EMBS Conference on Biomedical Engineering and Sciences (IECBES), (2016).Ching Theng Koh, Ahmad Deedat Zulfiqar bin Kamarudin, Weily Khoo and Nor Shamsiah binti MohamedFiber-hydrogel composites for skin tissue engineering62710.1109/IECBES.2016.7843525
• Francesca L. Maclean, Alexandra L. Rodriguez, Clare L. Parish, Richard J. Williams and David R. Nisbet, Integrating Biomaterials and Stem Cells for Neural Regeneration, Stem Cells and Development, 25, 3, (214), (2016).
  Crossref
• Simon Wan, Samantha Borland, Stephen M. Richardson, Catherine L.R. Merry, Alberto Saiani and Julie E. Gough, Self-assembling peptide hydrogel for intervertebral disc tissue engineering, Acta Biomaterialia, 46, (29), (2016).
  Crossref
• Berna Senturk, Sercan Mercan, Tuncay Delibasi, Mustafa O. Guler and Ayse B. Tekinay, Angiogenic Peptide Nanofibers Improve Wound Healing in STZ-Induced Diabetic Rats, ACS Biomaterials Science & Engineering, 2, 7, (1180), (2016).
  Crossref
• Takashi D.Y. Kozai, James R. Eles, Alberto L. Vazquez and X. Tracy Cui, Two-photon imaging of chronically implanted neural electrodes: Sealing methods and new insights, Journal of Neuroscience Methods, 258, (46), (2016).
  Crossref
• Dina M Silva, Ana Rita Caseiro, Irina Amorim, Isabel Pereira, Fátima Faria, Tiago Pereira, José Domingos Santos, Francisco Miguel Gama and Ana Colette Maurício, Inflammatory response to dextrin-based hydrogel associated with human mesenchymal stem cells, urinary bladder matrix and Bonelike®granules in rat subcutaneous implants, Biomedical Materials, 11, 6, (065004), (2016).
  Crossref
• S. J. Bidarra, P. Oliveira, S. Rocha, D. P. Saraiva, C. Oliveira and C. C. Barrias, A 3D in vitro model to explore the inter-conversion between epithelial and mesenchymal states during EMT and its reversion, Scientific Reports, 10.1038/srep27072, 6, 1, (2016).
  Crossref
• Panita Maturavongsadit, Jittima Amie Luckanagul, Kamolrat Metavarayuth, Xia Zhao, Limin Chen, Yuan Lin and Qian Wang, Promotion of In Vitro Chondrogenesis of Mesenchymal Stem Cells Using In Situ Hyaluronic Hydrogel Functionalized with Rod-Like Viral Nanoparticles, Biomacromolecules, 10.1021/acs.biomac.5b01577, 17, 6, (1930-1938), (2016).
  Crossref
• Xu Cheng, Jia Liu, Lei Wang, Ruoli Wang, Zhilan Liu and Renxi Zhuo, An enzyme-mediated in situ hydrogel based on polyaspartamide derivatives for localized drug delivery and 3D scaffolds, RSC Advances, 6, 103, (101334), (2016).
  Crossref
• Yuanyuan Liu, Chen Jiang, Shuai Li and Qingxi Hu, Composite vascular scaffold combining electrospun fibers and physically-crosslinked hydrogel with copper wire-induced grooves structure, Journal of the Mechanical Behavior of Biomedical Materials, 10.1016/j.jmbbm.2016.01.002, 61, (12-25), (2016).
  Crossref
• Stefania Di Cio and Julien E. Gautrot, Cell sensing of physical properties at the nanoscale: Mechanisms and control of cell adhesion and phenotype, Acta Biomaterialia, 10.1016/j.actbio.2015.11.027, 30, (26-48), (2016).
  Crossref
• David Moreau, Caroline Chauvet, François Etienne, François P. Rannou and Laurent Corté, Hydrogel films and coatings by swelling-induced gelation, Proceedings of the National Academy of Sciences, 10.1073/pnas.1609603113, 113, 47, (13295-13300), (2016).
  Crossref
• Ryota Tamate, Takeshi Ueki, Yuzo Kitazawa, Morinobu Kuzunuki, Masayoshi Watanabe, Aya Mizutani Akimoto and Ryo Yoshida, Photo-Dimerization Induced Dynamic Viscoelastic Changes in ABA Triblock Copolymer-Based Hydrogels for 3D Cell Culture, Chemistry of Materials, 10.1021/acs.chemmater.6b02839, 28, 17, (6401-6408), (2016).
  Crossref
• Laura Pandolfi, Silvia Minardi, Francesca Taraballi, Xeuwu Liu, Mauro Ferrari and Ennio Tasciotti, Composite microsphere-functionalized scaffold for the controlled release of small molecules in tissue engineering, Journal of Tissue Engineering, 10.1177/2041731415624668, 7, (204173141562466), (2016).
  Crossref
• S. Alison Stewart, Matilda Backholm, Nicholas A. D. Burke and Harald D. H. Stöver, Cross-Linked Hydrogels Formed through Diels–Alder Coupling of Furan- and Maleimide-Modified Poly(methyl vinyl ether- alt -maleic acid) , Langmuir, 10.1021/acs.langmuir.5b04450, 32, 7, (1863-1870), (2016).
  Crossref
• D. Gräfe, S. Zschoche, D. Appelhans and B. Voit, Tetra-sensitive graft copolymer gels with high volume changes, RSC Advances, 10.1039/C6RA01857B, 6, 41, (34809-34817), (2016).
  Crossref
• N.J. Castro and L.G. Zhang, Biomimetic nanocomposite hydrogels for cartilage regeneration, Nanocomposites for Musculoskeletal Tissue Regeneration, 10.1016/B978-1-78242-452-9.00012-1, (259-281), (2016).
  Crossref
• Tomasz Jungst, Willi Smolan, Kristin Schacht, Thomas Scheibel and Jürgen Groll, Strategies and Molecular Design Criteria for 3D Printable Hydrogels, Chemical Reviews, 10.1021/acs.chemrev.5b00303, 116, 3, (1496-1539), (2015).
  Crossref
• Girdhari Rijal and Weimin Li, 3D scaffolds in breast cancer research, Biomaterials, 10.1016/j.biomaterials.2015.12.016, 81, (135-156), (2016).
  Crossref
• Wenli Zhang, Caibin Li, Bruce C. Baguley, Fang Zhou, Weisai Zhou, John P. Shaw, Zhen Wang, Zimei Wu and Jianping Liu, Optimization of the formation of embedded multicellular spheroids of MCF-7 cells: How to reliably produce a biomimetic 3D model, Analytical Biochemistry, 515, (47), (2016).
  Crossref
• Hui Liu, Jia Liu, Chao Qi, Yapeng Fang, Lina Zhang, Renxi Zhuo and Xulin Jiang, Thermosensitive injectable in-situ forming carboxymethyl chitin hydrogel for three-dimensional cell culture, Acta Biomaterialia, 35, (228), (2016).
  Crossref
• Min Hee Park, Hyo Jung Moon, Jin Hye Park, Usha Pramod Shinde, Du Young Ko and Byeongmoon Jeong, PEG‐Poly(l‐alanine) Thermogel As a 3D Scaffold of Bone‐Marrow‐Derived Mesenchymal Stem Cells, Macromolecular Bioscience, 15, 4, (464-472), (2014).
  Wiley Online Library
• Chuang Li, Ping Chen, Yu Shao, Xu Zhou, Yuzhou Wu, Zhongqiang Yang, Zhibo Li, Tanja Weil and Dongsheng Liu, A Writable Polypeptide–DNA Hydrogel with Rationally Designed Multi‐modification Sites, Small, 11, 9-10, (1138-1143), (2014).
  Wiley Online Library
• Kristin Schacht, Tomasz Jüngst, Matthias Schweinlin, Andrea Ewald, Jürgen Groll and Thomas Scheibel, Dreidimensional gedruckte, zellbeladene Konstrukte aus Spinnenseide, Angewandte Chemie, 127, 9, (2858-2862), (2015).
  Wiley Online Library
• Kristin Schacht, Tomasz Jüngst, Matthias Schweinlin, Andrea Ewald, Jürgen Groll and Thomas Scheibel, Biofabrication of Cell‐Loaded 3D Spider Silk Constructs, Angewandte Chemie International Edition, 54, 9, (2816-2820), (2015).
  Wiley Online Library
• Eleanor Knight and Stefan Przyborski, Advances in 3D cell culture technologies enabling tissue‐like structures to be created in vitro, Journal of Anatomy, 227, 6, (746-756), (2014).
  Wiley Online Library
• Bianca Palma Santana, Fernanda Nedel, Camila Perelló Ferrúa, Ricardo Marques e Silva, Adriana Fernandes da Silva, Flávio Fernando Demarco and Neftali Lenin Villarreal Carreño, Comparing different methods to fix and to dehydrate cells on alginate hydrogel scaffolds using scanning electron microscopy, Microscopy Research and Technique, 78, 7, (553-561), (2015).
  Wiley Online Library
• Paola Occhetta, Roberta Visone, Laura Russo, Laura Cipolla, Matteo Moretti and Marco Rasponi, VA‐086 methacrylate gelatine photopolymerizable hydrogels: A parametric study for highly biocompatible 3D cell embedding, Journal of Biomedical Materials Research Part A, 103, 6, (2109-2117), (2014).
  Wiley Online Library
• Morgan M. Stanton, Allegra Parrillo, Gawain M. Thomas, W. Grant McGimpsey, Qi Wen, Robert M. Bellin and Christopher R. Lambert, Fibroblast extracellular matrix and adhesion on microtextured polydimethylsiloxane scaffolds, Journal of Biomedical Materials Research Part B: Applied Biomaterials, 103, 4, (861-869), (2014).
  Wiley Online Library
• John P. Frampton, Brendan M. Leung, Eve L. Bingham, Sasha Cai Lesher‐Perez, Jack D. Wang, Hady T. Sarhan, Mohamed E. H. El‐Sayed, Stephen E. Feinberg and Shuichi Takayama, Rapid Self‐Assembly of Macroscale Tissue Constructs at Biphasic Aqueous Interfaces, Advanced Functional Materials, 25, 11, (1694-1699), (2015).
  Wiley Online Library
• Huiyuan Wang and Sarah C. Heilshorn, Adaptable Hydrogel Networks with Reversible Linkages for Tissue Engineering, Advanced Materials, 27, 25, (3717-3736), (2015).
  Wiley Online Library
• Chien‐Chi Lin, Chang Seok Ki and Han Shih, Thiol–norbornene photoclick hydrogels for tissue engineering applications, Journal of Applied Polymer Science, 132, 8, (2014).
  Wiley Online Library
• Vinh X. Truong, Kun Zhou, George P. Simon and John S. Forsythe, Nitrile Oxide‐Norbornene Cycloaddition as a Bioorthogonal Crosslinking Reaction for the Preparation of Hydrogels, Macromolecular Rapid Communications, 36, 19, (1729-1734), (2015).
  Wiley Online Library
• James K. Carrow and Akhilesh K. Gaharwar, Bioinspired Polymeric Nanocomposites for Regenerative Medicine, Macromolecular Chemistry and Physics, 216, 3, (248-264), (2014).
  Wiley Online Library
• Silviya Petrova Zustiak, The Role of Matrix Compliance on Cell Responses to Drugs and Toxins: Towards Predictive Drug Screening Platforms, Macromolecular Bioscience, 15, 5, (589-599), (2015).
  Wiley Online Library
• Yin Chen, Xin Dai, Lu Huang, Yang Sun, Ho N. Chan, Bo Shen, Xiaoqian Zeng, Zhenguo Wu, I‐Ming Hsing, Zhihong Guo and Hongkai Wu, A Universal and Facile Approach for the Formation of a Protein Hydrogel for 3D Cell Encapsulation, Advanced Functional Materials, 25, 39, (6189-6198), (2015).
  Wiley Online Library
• Sebastian Hackelbusch, Torsten Rossow, Dirk Steinhilber, David A. Weitz and Sebastian Seiffert, Hybrid Microgels with Thermo‐Tunable Elasticity for Controllable Cell Confinement, Advanced Healthcare Materials, 4, 12, (1841-1848), (2015).
  Wiley Online Library
• Anna K. Blakney, Julie J. Antetomaso, Winnie W. Leung and Deok‐Ho Kim, Interactions of Stem Cells and Components of the Extracellular Matrix, Stem‐Cell Nanoengineering, (35-45), (2015).
  Wiley Online Library
• Takuya Murakami, Bernhard V. K. J. Schmidt, Hugh R. Brown and Craig J. Hawker, One-Pot “Click” Fabrication of Slide-Ring Gels, Macromolecules, 48, 21, (7774), (2015).
  Crossref
• Liv Kalbitzer, Katja Franke, Stephanie Möller, Matthias Schnabelrauch and Tilo Pompe, Glycosaminoglycan functionalization of mechanically and topologically defined collagen I matrices, Journal of Materials Chemistry B, 10.1039/C5TB01737H, 3, 45, (8902-8910), (2015).
  Crossref
• Xuan Zhang and Jiahong Dong, Direct comparison of different coating matrix on the hepatic differentiation from adipose-derived stem cells, Biochemical and Biophysical Research Communications, 456, 4, (938), (2015).
  Crossref
• Emilia Bakaic, Niels M. B. Smeets and Todd Hoare, Injectable hydrogels based on poly(ethylene glycol) and derivatives as functional biomaterials, RSC Adv., 10.1039/C4RA13581D, 5, 45, (35469-35486), (2015).
  Crossref
• Natalie Boehnke, Cynthia Cam, Erhan Bat, Tatiana Segura and Heather D. Maynard, Imine Hydrogels with Tunable Degradability for Tissue Engineering, Biomacromolecules, 10.1021/acs.biomac.5b00519, 16, 7, (2101-2108), (2015).
  Crossref
• Andrew Rape and Sanjay Kumar, Engineering Strategies to Recapitulate the Tumor Microenvironment, Cells, Forces, and the Microenvironment, 10.1201/b18184-12, (257-290), (2015).
  Crossref
• Adrianne M. Rosales, Kelly M. Mabry, Eric Michael Nehls and Kristi S. Anseth, Photoresponsive Elastic Properties of Azobenzene-Containing Poly(ethylene-glycol)-Based Hydrogels, Biomacromolecules, 10.1021/bm501710e, 16, 3, (798-806), (2015).
  Crossref
• Olga Kufelt, Ayman El-Tamer, Camilla Sehring, Marita Meißner, Sabrina Schlie-Wolter and Boris N. Chichkov, Water-soluble photopolymerizable chitosan hydrogels for biofabrication via two-photon polymerization, Acta Biomaterialia, 18, (186), (2015).
  Crossref
• Hwan D. Kim, Jiseung Heo, Yongsung Hwang, Seon-Yeong Kwak, Ok Kyu Park, Hyunbum Kim, Shyni Varghese and Nathaniel S. Hwang, Extracellular-Matrix-Based and Arg-Gly-Asp–Modified Photopolymerizing Hydrogels for Cartilage Tissue Engineering, Tissue Engineering Part A, 21, 3-4, (757), (2015).
  Crossref
• D.J. Curtis, A. Holder, N. Badiei, J. Claypole, M. Walters, B. Thomas, M. Barrow, D. Deganello, M.R. Brown, P.R. Williams and K. Hawkins, Validation of Optimal Fourier Rheometry for rapidly gelling materials and its application in the study of collagen gelation, Journal of Non-Newtonian Fluid Mechanics, 222, (253), (2015).
  Crossref
• Kun-Che Hung, U-Ser Jeng and Shan-hui Hsu, Fractal Structure of Hydrogels Modulates Stem Cell Behavior, ACS Macro Letters, 4, 9, (1056), (2015).
  Crossref
• Morgan M. Stanton and Christopher R. Lambert, A thermoresponsive, micro-roughened cell culture surface, Acta Biomaterialia, 10.1016/j.actbio.2014.12.006, 15, (11-19), (2015).
  Crossref
• Leda Klouda, Thermoresponsive hydrogels in biomedical applications, European Journal of Pharmaceutics and Biopharmaceutics, 10.1016/j.ejpb.2015.05.017, 97, (338-349), (2015).
  Crossref
• Megan C. Cox, Laura M. Reese, Lissett R. Bickford and Scott S. Verbridge, Toward the Broad Adoption of 3D Tumor Models in the Cancer Drug Pipeline, ACS Biomaterials Science & Engineering, 10.1021/acsbiomaterials.5b00172, 1, 10, (877-894), (2015).
  Crossref
• Kathleen A. Fitzgerald, Meenakshi Malhotra, Caroline M. Curtin, Fergal J. O' Brien and Caitriona M. O' Driscoll, Life in 3D is never flat: 3D models to optimise drug delivery, Journal of Controlled Release, 10.1016/j.jconrel.2015.07.020, 215, (39-54), (2015).
  Crossref
• Yixiao Dong, Yue Qin, Marie Dubaa, John Killion, Yongsheng Gao, Tianyu Zhao, Dezhong Zhou, Dominik Duscher, Luke Geever, Geoffrey C. Gurtner and Wenxin Wang, A rapid crosslinking injectable hydrogel for stem cell delivery, from multifunctional hyperbranched polymers via RAFT homopolymerization of PEGDA, Polymer Chemistry, 10.1039/C5PY00678C, 6, 34, (6182-6192), (2015).
  Crossref
• Fengxuan Han, Xiaoling Yang, Jin Zhao, Yunhui Zhao and Xiaoyan Yuan, Photocrosslinked layered gelatin-chitosan hydrogel with graded compositions for osteochondral defect repair, Journal of Materials Science: Materials in Medicine, 26, 4, (2015).
  Crossref
• Xin Zhao, Peng Li, Baolin Guo and Peter X. Ma, Antibacterial and conductive injectable hydrogels based on quaternized chitosan-graft-polyaniline/oxidized dextran for tissue engineering, Acta Biomaterialia, 10.1016/j.actbio.2015.08.006, 26, (236-248), (2015).
  Crossref
• Katherine J. R. Lewis, Mark W. Tibbitt, Yi Zhao, Kelsey Branchfield, Xin Sun, Vivek Balasubramaniam and Kristi S. Anseth, In vitro model alveoli from photodegradable microsphere templates, Biomater. Sci., 10.1039/C5BM00034C, 3, 6, (821-832), (2015).
  Crossref
• Elissa M. Grzincic and Catherine J. Murphy, Gold Nanorods Indirectly Promote Migration of Metastatic Human Breast Cancer Cells in Three-Dimensional Cultures, ACS Nano, 9, 7, (6801), (2015).
  Crossref
• Florian T. Unger, Irene Witte and Kerstin A. David, Prediction of individual response to anticancer therapy: historical and future perspectives, Cellular and Molecular Life Sciences, 10.1007/s00018-014-1772-3, 72, 4, (729-757), (2014).
  Crossref
• Jennifer L. Leight, Emi Y. Tokuda, Caitlin E. Jones, Austin J. Lin and Kristi S. Anseth, Multifunctional bioscaffolds for 3D culture of melanoma cells reveal increased MMP activity and migration with BRAF kinase inhibition, Proceedings of the National Academy of Sciences, 10.1073/pnas.1505662112, 112, 17, (5366-5371), (2015).
  Crossref
• Jian Sun, Yuan Xiao, Shue Wang, Marvin J. Slepian and Pak Kin Wong, Advances in Techniques for Probing Mechanoregulation of Tissue Morphogenesis, Journal of Laboratory Automation, 10.1177/2211068214554802, 20, 2, (127-137), (2015).
  Crossref
• Chiara Canali, Arto Heiskanen, Haseena Bashir Muhammad, Per Høyum, Fred-Johan Pettersen, Mette Hemmingsen, Anders Wolff, Martin Dufva, Ørjan Grøttem Martinsen and Jenny Emnéus, Bioimpedance monitoring of 3D cell culturing—Complementary electrode configurations for enhanced spatial sensitivity, Biosensors and Bioelectronics, 10.1016/j.bios.2014.07.020, 63, (72-79), (2015).
  Crossref
• A. Sivashanmugam, R. Arun Kumar, M. Vishnu Priya, Shantikumar V. Nair and R. Jayakumar, An overview of injectable polymeric hydrogels for tissue engineering, European Polymer Journal, 10.1016/j.eurpolymj.2015.05.014, 72, (543-565), (2015).
  Crossref
• Manuela Curcio, Umile Gianfranco Spizzirri, Giuseppe Cirillo, Tania Spataro, Nevio Picci and Francesca Iemma, Tailoring Flavonoids’ Antioxidant Properties Through Covalent Immobilization Into Dual Stimuli Responsive Polymers, International Journal of Polymeric Materials and Polymeric Biomaterials, 10.1080/00914037.2014.996708, 64, 11, (587-596), (2015).
  Crossref
• Shahid Bashir, Yin Yin Teo, S. Ramesh, K. Ramesh and Amir Azam Khan, N-succinyl chitosan preparation, characterization, properties and biomedical applications: a state of the art review, Reviews in Chemical Engineering, 10.1515/revce-2015-0016, 31, 6, (2015).
  Crossref
• H.J. Chung, M.M. Hassan, J.O. Park, H.J. Kim and S.T. Hong, Manipulation of a quasi-natural cell block for high-efficiency transplantation of adherent somatic cells, Brazilian Journal of Medical and Biological Research, 48, 5, (392), (2015).
  Crossref
• Rita C. Assunção-Silva, Eduardo D. Gomes, Nuno Sousa, Nuno A. Silva and António J. Salgado, Hydrogels and Cell Based Therapies in Spinal Cord Injury Regeneration, Stem Cells International, 10.1155/2015/948040, 2015, (1-24), (2015).
  Crossref
• Xin Zhao, Baolin Guo and Peter X. Ma, Single component thermo-gelling electroactive hydrogels from poly(caprolactone)–poly(ethylene glycol)–poly(caprolactone)-graft-aniline tetramer amphiphilic copolymers, J. Mater. Chem. B, 10.1039/C5TB01658D, 3, 43, (8459-8468), (2015).
  Crossref
• Jae Myung Jang, Si-Hoai-Trung Tran, Sang Cheol Na and Noo Li Jeon, Engineering Controllable Architecture in Matrigel for 3D Cell Alignment, ACS Applied Materials & Interfaces, 10.1021/am508292t, 7, 4, (2183-2188), (2015).
  Crossref
• A.D. Drozdov, C.-G. Sanporean and J. de C. Christiansen, Mechanical response of HEMA gel under cyclic deformation: Viscoplasticity and swelling-induced recovery, International Journal of Solids and Structures, 10.1016/j.ijsolstr.2014.10.009, 52, (220-234), (2015).
  Crossref
• Rui Li, Alexandra Rodriguez, David R. Nisbet, Colin J. Barrow and Richard J. Williams, Self-Assembled Peptide Nanostructures for the Fabrication of Cell Scaffolds, Micro and Nanofabrication Using Self-Assembled Biological Nanostructures, 10.1016/B978-0-323-29642-7.00003-5, (33-61), (2015).
  Crossref
• Alexandra Berdichevski, Yonatan Shachaf, Roni Wechsler and Dror Seliktar, Protein composition alters in vivo resorption of PEG-based hydrogels as monitored by contrast-enhanced MRI, Biomaterials, 10.1016/j.biomaterials.2014.11.015, 42, (1-10), (2015).
  Crossref
• David C. Sullivan, Jonathan P. Repper, Adam W. Frock, Peter S. McFetridge and Bryon E. Petersen, Current Translational Challenges for Tissue Engineering: 3D Culture, Nanotechnology, and Decellularized Matrices, Current Pathobiology Reports, 10.1007/s40139-015-0066-2, 3, 1, (99-106), (2015).
  Crossref
• Chien-Chi Lin, Recent advances in crosslinking chemistry of biomimetic poly(ethylene glycol) hydrogels, RSC Adv., 10.1039/C5RA05734E, 5, 50, (39844-39853), (2015).
  Crossref
• Jianjun Gu, Yening Zhao, Ying Guan and Yongjun Zhang, Effect of particle size in a colloidal hydrogel scaffold for 3D cell culture, Colloids and Surfaces B: Biointerfaces, 10.1016/j.colsurfb.2015.11.021, 136, (1139-1147), (2015).
  Crossref
• Yufan Xu and Xiaohong Wang, Fluid and cell behaviors along a 3D printed alginate/gelatin/fibrin channel, Biotechnology and Bioengineering, 112, 8, (1683-1695), (2015).
  Wiley Online Library
• Lucas H. Hofmeister, Lino Costa, Daniel A. Balikov, Spencer W. Crowder, Alexander Terekhov, Hak-Joon Sung and William H. Hofmeister, Patterned polymer matrix promotes stemness and cell-cell interaction of adult stem cells, Journal of Biological Engineering, 10.1186/s13036-015-0016-x, 9, 1, (2015).
  Crossref
• Sangheon Han, Trevor R. Ham, Salma Haque, Jessica L. Sparks and Justin M. Saul, Alkylation of human hair keratin for tunable hydrogel erosion and drug delivery in tissue engineering applications, Acta Biomaterialia, 10.1016/j.actbio.2015.05.013, 23, (201-213), (2015).
  Crossref
• Can Kucukgul, S. Burce Ozler, Ilyas Inci, Ezgi Karakas, Ster Irmak, Devrim Gozuacik, Alpay Taralp and Bahattin Koc, 3D bioprinting of biomimetic aortic vascular constructs with self‐supporting cells, Biotechnology and Bioengineering, 112, 4, (811-821), (2015).
  Wiley Online Library
• Haisheng Peng, Nitya Poovaiah, Michael Forrester, Eric Cochran and Qun Wang, Ex Vivo Culture of Primary Intestinal Stem Cells in Collagen Gels and Foams, ACS Biomaterials Science & Engineering, 1, 1, (37), (2015).
  Crossref
• Vinh X. Truong, Matthew P. Ablett, Stephen M. Richardson, Judith A. Hoyland and Andrew P. Dove, Simultaneous Orthogonal Dual-Click Approach to Tough, in-Situ -Forming Hydrogels for Cell Encapsulation , Journal of the American Chemical Society, 10.1021/ja511681s, 137, 4, (1618-1622), (2015).
  Crossref
2015 37th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), (2015).Cristina C. BarriasBioengineered cell-instructive 3D matrices as vehicles for cellular therapies173710.1109/EMBC.2015.7318713
• Andrea M. Unser, Yangzi Tian and Yubing Xie, Opportunities and challenges in three-dimensional brown adipogenesis of stem cells, Biotechnology Advances, 10.1016/j.biotechadv.2015.07.005, 33, 6, (962-979), (2015).
  Crossref
• Ferdinand Ruedinger, Antonina Lavrentieva, Cornelia Blume, Iliyana Pepelanova and Thomas Scheper, Hydrogels for 3D mammalian cell culture: a starting guide for laboratory practice, Applied Microbiology and Biotechnology, 10.1007/s00253-014-6253-y, 99, 2, (623-636), (2014).
  Crossref
• W.C. Mak, K. Olesen, P. Sivlér, C.J. Lee, I. Moreno-Jimenez, J. Edin, D. Courtman, M. Skog and M. Griffith, Controlled Delivery of Human Cells by Temperature Responsive Microcapsules, Journal of Functional Biomaterials, 6, 4, (439), (2015).
  Crossref
• Soichi Takagi, Scaffold-Based Tissue Engineering, Myocardial Tissue Engineering, 10.1201/b15643-7, (89-105), (2015).
  Crossref
• Tanya Debnath, Sutapa Ghosh, Usha Shalini Potlapuvu, Lakshmi Kona, Suguna Ratnakar Kamaraju, Suprabhat Sarkar, Sumanlatha Gaddam, Lakshmi Kiran Chelluri and Adam J. Engler, Proliferation and Differentiation Potential of Human Adipose-Derived Stem Cells Grown on Chitosan Hydrogel, PLOS ONE, 10, 3, (e0120803), (2015).
  Crossref
• Zhen Qi Liu, Zhao Wei, Xv Long Zhu, Guo You Huang, Feng Xu, Jian Hai Yang, Yoshihito Osada, Miklós Zrínyi, Jian Hui Li and Yong Mei Chen, Dextran-based hydrogel formed by thiol-Michael addition reaction for 3D cell encapsulation, Colloids and Surfaces B: Biointerfaces, 10.1016/j.colsurfb.2015.02.005, 128, (140-148), (2015).
  Crossref
• Waseem Asghar, Rami El Assal, Hadi Shafiee, Sharon Pitteri, Ramasamy Paulmurugan and Utkan Demirci, Engineering cancer microenvironments for in vitro 3-D tumor models, Materials Today, 10.1016/j.mattod.2015.05.002, 18, 10, (539-553), (2015).
  Crossref
• Mourad Jridi, Sana Bardaa, Dorsaf Moalla, Tarak Rebaii, Nabil Souissi, Zouheir Sahnoun and Moncef Nasri, Microstructure, rheological and wound healing properties of collagen-based gel from cuttlefish skin, International Journal of Biological Macromolecules, 77, (369), (2015).
  Crossref
• Melis Goktas, Goksu Cinar, Ilghar Orujalipoor, Semra Ide, Ayse B. Tekinay and Mustafa O. Guler, Self-Assembled Peptide Amphiphile Nanofibers and PEG Composite Hydrogels as Tunable ECM Mimetic Microenvironment, Biomacromolecules, 10.1021/acs.biomac.5b00041, 16, 4, (1247-1258), (2015).
  Crossref
• Fang Fang Tao, Xia Xiao, Kin Fong Lei and I-Chi Lee, Paper-based cell culture microfluidic system, BioChip Journal, 10.1007/s13206-015-9202-7, 9, 2, (97-104), (2015).
  Crossref
• Ioanna Sandvig, Kristin Karstensen, Anne Mari Rokstad, Finn Lillelund Aachmann, Kjetil Formo, Axel Sandvig, Gudmund Skjåk‐Bræk and Berit Løkensgard Strand, RGD‐peptide modified alginate by a chemoenzymatic strategy for tissue engineering applications, Journal of Biomedical Materials Research Part A, 103, 3, (896-906), (2014).
  Wiley Online Library
• Revital Goldshmid, Iris Mironi-Harpaz, Yonatan Shachaf and Dror Seliktar, A method for preparation of hydrogel microcapsules for stem cell bioprocessing and stem cell therapy, Methods, 84, (35), (2015).
  Crossref
• He Shen, Yufei Ma, Yu Luo, Xiaoyun Liu, Zhijun Zhang and Jianwu Dai, Directed osteogenic differentiation of mesenchymal stem cell in three-dimensional biodegradable methylcellulose-based scaffolds, Colloids and Surfaces B: Biointerfaces, 135, (332), (2015).
  Crossref
• Kosei Endo, Takahisa Anada, Masumi Yamada, Minoru Seki, Keiichi Sasaki and Osamu Suzuki, Enhancement of osteoblastic differentiation in alginate gel beads with bioactive octacalcium phosphate particles, Biomedical Materials, 10, 6, (065019), (2015).
  Crossref
• Jian-feng Pan, Heng-feng Yuan, Chang-an Guo, Jia Liu, Xiao-hua Geng, Teng Fei, Shuo Li, Wen-shuai Fan, Xiu-mei Mo and Zuo-qin Yan, One-step cross-linked injectable hydrogels with tunable properties for space-filling scaffolds in tissue engineering, RSC Advances, 10.1039/C5RA02588E, 5, 51, (40820-40830), (2015).
  Crossref
• Mark W. Tibbitt, Christopher B. Rodell, Jason A. Burdick and Kristi S. Anseth, Progress in material design for biomedical applications, Proceedings of the National Academy of Sciences, 10.1073/pnas.1516247112, 112, 47, (14444-14451), (2015).
  Crossref
• Fada Guan, Lawrence Bronk, Uwe Titt, Steven H. Lin, Dragan Mirkovic, Matthew D. Kerr, X. Ronald Zhu, Jeffrey Dinh, Mary Sobieski, Clifford Stephan, Christopher R. Peeler, Reza Taleei, Radhe Mohan and David R. Grosshans, Spatial mapping of the biologic effectiveness of scanned particle beams: towards biologically optimized particle therapy, Scientific Reports, 10.1038/srep09850, 5, 1, (2015).
  Crossref
2015 IEEE International Conference on CYBER Technology in Automation, Control, and Intelligent Systems (CYBER) Shenyang, China 2015 IEEE International Conference on Cyber Technology in Automation, Control, and Intelligent Systems (CYBER) IEEE , (2015). 978-1-4799-8728-3 978-1-4799-8730-6 Yajing Shen, Chin To Wong, Wenfeng Wan, Masahiro Nakajima and Toshio Fukuda 3D cell assembly via anode electrode manipulation , (2015). 1138 1142 7288104 , 10.1109/CYBER.2015.7288104 http://ieeexplore.ieee.org/document/7288104/
• Subin M. George and Hyejin Moon, Digital microfluidic three-dimensional cell culture and chemical screening platform using alginate hydrogels, Biomicrofluidics, 9, 2, (024116), (2015).
  Crossref
• Luke D. Amer, Audrey Holtzinger, Gordon Keller, Melissa J. Mahoney and Stephanie J. Bryant, Enzymatically degradable poly(ethylene glycol) hydrogels for the 3D culture and release of human embryonic stem cell derived pancreatic precursor cell aggregates, Acta Biomaterialia, 10.1016/j.actbio.2015.04.013, 22, (103-110), (2015).
  Crossref
• Ahmet Gurses, Mehtap Ejder-Korucu and Cetin Dogar, Applications of Polymer–Clay Nanocomposites, Introduction to Polymer–Clay Nanocomposites, 10.1201/b18716-6, (293-338), (2015).
  Crossref
• Edinson Lucumi Moreno, Siham Hachi, Kathrin Hemmer, Sebastiaan J. Trietsch, Aidos S. Baumuratov, Thomas Hankemeier, Paul Vulto, Jens C. Schwamborn and Ronan M. T. Fleming, Differentiation of neuroepithelial stem cells into functional dopaminergic neurons in 3D microfluidic cell culture, Lab on a Chip, 15, 11, (2419), (2015).
  Crossref
• Akshata Datar, Pranav Joshi and Moo-Yeal Lee, Biocompatible Hydrogels for Microarray Cell Printing and Encapsulation, Biosensors, 5, 4, (647), (2015).
  Crossref
• Beth A. Lindborg, John H. Brekke, Carolyn M. Scott, Yi Wen Chai, Connor Ulrich, Lee Sandquist, Efrosini Kokkoli and Timothy D. O'Brien, A Chitosan-Hyaluronan-Based Hydrogel-Hydrocolloid SupportsIn VitroCulture and Differentiation of Human Mesenchymal Stem/Stromal Cells, Tissue Engineering Part A, 21, 11-12, (1952), (2015).
  Crossref
• Vanessa Penna, Monica VN Lipay, Monica T Duailibi and Silvio E Duailibi, The likely role of proteolytic enzymes in unwanted differentiation of stem cells in culture, Future Science OA, 10.4155/fso.15.26, 1, 3, (2015).
  Crossref
• Gaelle C. Le Goff, Rathi L. Srinivas, W. Adam Hill and Patrick S. Doyle, Hydrogel microparticles for biosensing, European Polymer Journal, 10.1016/j.eurpolymj.2015.02.022, 72, (386-412), (2015).
  Crossref
• Fabienna Arends, Constantin Nowald, Kerstin Pflieger, Kathrin Boettcher, Stefan Zahler, Oliver Lieleg and Stephane Germain, The Biophysical Properties of Basal Lamina Gels Depend on the Biochemical Composition of the Gel, PLOS ONE, 10, 2, (e0118090), (2015).
  Crossref
• Yibo Wu, Yong X. Chen, Jiahan Yan, Shihao Yang, Ping Dong and Pranav Soman, Fabrication of conductive polyaniline hydrogel using porogen leaching and projection microstereolithography, J. Mater. Chem. B, 10.1039/C5TB00629E, 3, 26, (5352-5360), (2015).
  Crossref
• P. Madhusudhana Reddy, Chi-Jung Chang, Shih-Rong Hsieh, Hsin-Chun Huang and Ming-Ching Lee, Overview of the effect of monomers and green solvents on thermoresponsive copolymers: phase transition temperature and surface properties, RSC Advances, 5, 106, (86901), (2015).
  Crossref
• Karen A. Simon, Nicholas J. Warren, Bobak Mosadegh, Marym R. Mohammady, George M. Whitesides and Steven P. Armes, Disulfide-Based Diblock Copolymer Worm Gels: A Wholly-Synthetic Thermoreversible 3D Matrix for Sheet-Based Cultures, Biomacromolecules, 10.1021/acs.biomac.5b01266, 16, 12, (3952-3958), (2015).
  Crossref
• Fu-Kuan Shi, Xi-Ping Wang, Ruo-Hai Guo, Ming Zhong and Xu-Ming Xie, Highly stretchable and super tough nanocomposite physical hydrogels facilitated by the coupling of intermolecular hydrogen bonds and analogous chemical crosslinking of nanoparticles, Journal of Materials Chemistry B, 3, 7, (1187), (2015).
  Crossref
• Kyun Joo Park, Kyoung G. Lee, Seunghwan Seok, Bong Gill Choi, Seok Jae Lee and Do Hyun Kim, Micropillar array embedded system for single cell encapsulation in hydrogel, MRS Proceedings, 10.1557/opl.2015.66, 1724, (2015).
  Crossref
• Joseph Brown, Chia-Li Lu, Jeannine Coburn and David L. Kaplan, Impact of silk biomaterial structure on proteolysis, Acta Biomaterialia, 11, (212), (2015).
  Crossref
• G. Imparato, F. Urciuolo and P. A. Netti, In vitro three-dimensional models in cancer research: a review , International Materials Reviews, 10.1179/1743280415Y.0000000003, 60, 6, (297-311), (2015).
  Crossref
• Sadik Kaga, Serap Yapar, Ece Manavoglu Gecici and Rana Sanyal, Photopatternable “Clickable” Hydrogels: “Orthogonal” Control over Fabrication and Functionalization, Macromolecules, 10.1021/acs.macromol.5b01536, 48, 15, (5106-5115), (2015).
  Crossref
• Xiaoshan Yan, Xiaotong Yang, Xinming Tong and Yanbin Huang, A method to accelerate the gelation of disulfide-crosslinked hydrogels, Chinese Journal of Polymer Science, 10.1007/s10118-015-1567-5, 33, 1, (118-127), (2014).
  Crossref
• Ryan S. Stowers, Shane C. Allen and Laura J. Suggs, Dynamic phototuning of 3D hydrogel stiffness, Proceedings of the National Academy of Sciences, 112, 7, (1953), (2015).
  Crossref
• Ho-Joon Lee, Atanu Sen, Sooneon Bae, Jeoung Soo Lee and Ken Webb, Poly(ethylene glycol) diacrylate/hyaluronic acid semi-interpenetrating network compositions for 3-D cell spreading and migration, Acta Biomaterialia, 10.1016/j.actbio.2014.12.007, 14, (43-52), (2015).
  Crossref
• Wen Shen, Lohitash Karumbaiah, Xi Liu, Tarun Saxena, Shuodan Chen, Radhika Patkar, Ravi V. Bellamkonda and Mark G. Allen, Extracellular matrix-based intracortical microelectrodes: Toward a microfabricated neural interface based on natural materials, Microsystems & Nanoengineering, 1, 1, (2015).
  Crossref
• Joanna B. Dahl, Jung-Ming G. Lin, Susan J. Muller and Sanjay Kumar, Microfluidic Strategies for Understanding the Mechanics of Cells and Cell-Mimetic Systems, Annual Review of Chemical and Biomolecular Engineering, 6, 1, (293), (2015).
  Crossref
• Vengama N. Modepalli, Alexandra L. Rodriguez, Rui Li, Sivapriya Pavuluri, Kevin R. Nicholas, Colin J. Barrow, David R. Nisbet and Richard J. Williams, In vitro response to functionalized self‐assembled peptide scaffolds for three‐dimensional cell culture, Peptide Science, 102, 2, (197-205), (2014).
  Wiley Online Library
• Jasmin Whittaker, Rajkamal Balu, Namita R. Choudhury and Naba K. Dutta, Biomimetic protein‐based elastomeric hydrogels for biomedical applications, Polymer International, 63, 9, (1545-1557), (2014).
  Wiley Online Library
• Ehsan Atefi, Stephanie Lemmo, Darcy Fyffe, Gary D. Luker and Hossein Tavana, High Throughput, Polymeric Aqueous Two‐Phase Printing of Tumor Spheroids, Advanced Functional Materials, 24, 41, (6509-6515), (2014).
  Wiley Online Library
• Changying Xue, Darice Y. Wong and Andrea M. Kasko, Complex Dynamic Substrate Control: Dual‐Tone Hydrogel Photoresists Allow Double‐Dissociation of Topography and Modulus, Advanced Materials, 26, 10, (1577-1583), (2013).
  Wiley Online Library
• Julian Thiele, Yujie Ma, Stéphanie M. C. Bruekers, Shaohua Ma and Wilhelm T. S. Huck, 25th Anniversary Article: Designer Hydrogels for Cell Cultures: A Materials Selection Guide, Advanced Materials, 26, 1, (125-148), (2013).
  Wiley Online Library
• Jieling Shan, Qingjia Chi, Hongbing Wang, Qiping Huang, Li Yang, Guanglei Yu and Xiaobing Zou, Mechanosensing of cells in 3D gel matrices based on natural and synthetic materials, Cell Biology International, 38, 11, (1233-1243), (2014).
  Wiley Online Library
• Yiting Hao and Chien‐Chi Lin, Degradable thiol‐acrylate hydrogels as tunable matrices for three‐dimensional hepatic culture, Journal of Biomedical Materials Research Part A, 102, 11, (3813-3827), (2013).
  Wiley Online Library
• Joon Ho Lee and Won Hur, Scaffold‐free formation of a millimeter‐scale multicellular spheroid with an internal cavity from magnetically levitated 3T3 cells that ingested iron oxide‐containing microspheres, Biotechnology and Bioengineering, 111, 5, (1038-1047), (2013).
  Wiley Online Library
• Arvind Varma and Ignacio E. Grossmann, Evolving trends in chemical engineering education, AIChE Journal, 60, 11, (3692-3700), (2014).
  Wiley Online Library
• Wataru Kamimura, Hiroyuki Koyama, Tetsuro Miyata and Tsuyoshi Takato, Sugar‐based crosslinker forms a stable atelocollagen hydrogel that is a favorable microenvironment for 3D cell culture, Journal of Biomedical Materials Research Part A, 102, 12, (4309-4316), (2014).
  Wiley Online Library
• Jinling Ma, Fang Yang, Sanne K. Both, Monique Kersten‐Niessen, Matilde Bongio, Juli Pan, Fu‐Zhai Cui, F. Kurtis Kasper, Antonios G. Mikos, John A. Jansen and Jeroen J. J. P. Beucken, Comparison of cell‐loading methods in hydrogel systems, Journal of Biomedical Materials Research Part A, 102, 4, (935-946), (2013).
  Wiley Online Library
• Yao Wang, Qiang Zhao, He Zhang, Sheng Yang and Xinru Jia, A Novel Poly(amido amine)‐Dendrimer‐Based Hydrogel as a Mimic for the Extracellular Matrix, Advanced Materials, 26, 24, (4163-4167), (2014).
  Wiley Online Library
• Lorenzo Milli, Nicola Castellucci and Claudia Tomasini, Turning Around the L‐Phe‐D‐Oxd Moiety for a Versatile Low‐Molecular‐Weight Gelator, European Journal of Organic Chemistry, 2014, 27, (5954-5961), (2014).
  Wiley Online Library
• Mathew Patenaude, Niels M. B. Smeets and Todd Hoare, Designing Injectable, Covalently Cross‐Linked Hydrogels for Biomedical Applications, Macromolecular Rapid Communications, 35, 6, (598-617), (2014).
  Wiley Online Library
• Morgan M. Stanton, Johanna M. Rankenberg, Byung‐Wook Park, W. Grant McGimpsey, Christopher Malcuit and Christopher R. Lambert, Cell Behavior on Surface Modified Polydimethylsiloxane (PDMS), Macromolecular Bioscience, 14, 7, (953-964), (2014).
  Wiley Online Library
• F. Raquel Maia, Ana H. Lourenço, Pedro L. Granja, Raquel M. Gonçalves and Cristina C. Barrias, Effect of Cell Density on Mesenchymal Stem Cells Aggregation in RGD‐Alginate 3D Matrices under Osteoinductive Conditions, Macromolecular Bioscience, 14, 6, (759-771), (2014).
  Wiley Online Library
• Matthew G. Ondeck and Adam J. Engler, Dynamic Materials Mimic Developmental and Disease Changes in Tissues, Bio‐inspired Materials for Biomedical Engineering, (25-43), (2014).
  Wiley Online Library
• Kyung Min Park and Sharon Gerecht, Biomaterials as Artificial Niches for Pluripotent Stem Cell Engineering, Cell and Molecular Biology and Imaging of Stem Cells, (21-43), (2014).
  Wiley Online Library
• Giedrė Ramanauskaitė, Dovilė Žalalytė, Vytautas Kašėta, Aida Vaitkuvienė, Lilija Kalėdienė and Genė Biziulevičienė, Skin extracellular matrix components accelerate the regenerative potential of Lin− cells, Open Life Sciences, 10.2478/s11535-013-0283-9, 9, 4, (2014).
  Crossref
• Daniel J. Modulevsky, Cory Lefebvre, Kristina Haase, Zeinab Al-Rekabi, Andrew E. Pelling and Irina Kerkis, Apple Derived Cellulose Scaffolds for 3D Mammalian Cell Culture, PLoS ONE, 9, 5, (e97835), (2014).
  Crossref
• Marcel M. E. Koenigs, Asish Pal, Hamed Mortazavi, Gajanan M. Pawar, Cornelis Storm and Rint P. Sijbesma, Tuning Cross-Link Density in a Physical Hydrogel by Supramolecular Self-Sorting, Macromolecules, 47, 8, (2712), (2014).
  Crossref
• Michele M. Nava, Manuela T. Raimondi and Riccardo Pietrabissa, Bio-chemo-mechanical models for nuclear deformation in adherent eukaryotic cells, Biomechanics and Modeling in Mechanobiology, 13, 5, (929), (2014).
  Crossref
• Sílvia J. Bidarra, Cristina C. Barrias and Pedro L. Granja, Injectable alginate hydrogels for cell delivery in tissue engineering, Acta Biomaterialia, 10.1016/j.actbio.2013.12.006, 10, 4, (1646-1662), (2014).
  Crossref
• Shreyas S. Rao, John J. Lannutti, Mariano S. Viapiano, Atom Sarkar and Jessica O. Winter, Toward 3D Biomimetic Models to Understand the Behavior of Glioblastoma Multiforme Cells, Tissue Engineering Part B: Reviews, 10.1089/ten.teb.2013.0227, 20, 4, (314-327), (2014).
  Crossref
• Niels M.B. Smeets, Emilia Bakaic, Mathew Patenaude and Todd Hoare, Injectable poly(oligoethylene glycol methacrylate)-based hydrogels with tunable phase transition behaviours: Physicochemical and biological responses, Acta Biomaterialia, 10.1016/j.actbio.2014.05.035, 10, 10, (4143-4155), (2014).
  Crossref
• Keila B. Fonseca, Pedro L. Granja and Cristina C. Barrias, Engineering proteolytically-degradable artificial extracellular matrices, Progress in Polymer Science, 10.1016/j.progpolymsci.2014.07.003, 39, 12, (2010-2029), (2014).
  Crossref
• Anand Srinivasan, Celia Macias Gupta, C. Mauli Agrawal, Kai P. Leung, Jose L. Lopez‐Ribot and Anand K. Ramasubramanian, Drug susceptibility of matrix‐encapsulated Candida albicans nano‐biofilms, Biotechnology and Bioengineering, 111, 2, (418-424), (2013).
  Wiley Online Library
• Xanthippi Chatzistavrou, J. Christopher Fenno, Denver Faulk, Stephen Badylak, Toshihiro Kasuga, Aldo R. Boccaccini and Petros Papagerakis, Fabrication and characterization of bioactive and antibacterial composites for dental applications, Acta Biomaterialia, 10, 8, (3723), (2014).
  Crossref
• Zhichao Guan, Shasha Jia, Zhi Zhu, Mingxia Zhang and Chaoyong James Yang, Facile and Rapid Generation of Large-Scale Microcollagen Gel Array for Long-Term Single-Cell 3D Culture and Cell Proliferation Heterogeneity Analysis, Analytical Chemistry, 10.1021/ac500088m, 86, 5, (2789-2797), (2014).
  Crossref
• Sam H. Au, M. Dean Chamberlain, Shruthi Mahesh, Michael V. Sefton and Aaron R. Wheeler, Hepatic organoids for microfluidic drug screening, Lab on a Chip, 10.1039/C4LC00531G, 14, 17, (3290), (2014).
  Crossref
• Gregory N Grover, Nikhil Rao and Karen L Christman, Myocardial matrix–polyethylene glycol hybrid hydrogels for tissue engineering, Nanotechnology, 25, 1, (014011), (2014).
  Crossref
• Shahrzad Rayatpisheh, Daniel E. Heath, Amir Shakouri, Pim-On Rujitanaroj, Sing Yian Chew and Mary B. Chan-Park, Combining cell sheet technology and electrospun scaffolding for engineered tubular, aligned, and contractile blood vessels, Biomaterials, 10.1016/j.biomaterials.2013.12.035, 35, 9, (2713-2719), (2014).
  Crossref
• Wen Zhao, Xiaowei Li, Xiaoyan Liu, Ning Zhang and Xuejun Wen, Effects of substrate stiffness on adipogenic and osteogenic differentiation of human mesenchymal stem cells, Materials Science and Engineering: C, 40, (316), (2014).
  Crossref
• Peiyi Song, Rui Hu, Danny Jian Hang Tng and Ken-Tye Yong, Moving towards individualized medicine with microfluidics technology, RSC Advances, 10.1039/c3ra45629c, 4, 22, (11499), (2014).
  Crossref
• Chang Seok Ki, Tsai-Yu Lin, Murray Korc and Chien-Chi Lin, Thiol-ene hydrogels as desmoplasia-mimetic matrices for modeling pancreatic cancer cell growth, invasion, and drug resistance, Biomaterials, 10.1016/j.biomaterials.2014.08.014, 35, 36, (9668-9677), (2014).
  Crossref
• Naho Oyama, Hiromasa Minami, Daichi Kawano, Makoto Miyazaki, Tomoki Maeda, Kazunori Toma, Atsushi Hotta and Koji Nagahama, A nanocomposite approach to develop biodegradable thermogels exhibiting excellent cell-compatibility for injectable cell delivery, Biomaterials Science, 2, 8, (1057), (2014).
  Crossref
• Stuart B. Lowe, Vincent T. G. Tan, Alexander H. Soeriyadi, Thomas P. Davis and J. Justin Gooding, Synthesis and High-Throughput Processing of Polymeric Hydrogels for 3D Cell Culture, Bioconjugate Chemistry, 10.1021/bc500310v, 25, 9, (1581-1601), (2014).
  Crossref
• M. Zelzer and R.V. Ulijn, Enzyme-responsive polymers: properties, synthesis and applications, Smart Polymers and their Applications, 10.1533/9780857097026.1.166, (166-203), (2014).
  Crossref
• Niels M. B. Smeets, Emilia Bakaic, Francis M. Yavitt, Fei-Chi Yang, Maikel C. Rheinstädter and Todd Hoare, Probing the Internal Morphology of Injectable Poly(oligoethylene glycol methacrylate) Hydrogels by Light and Small-Angle Neutron Scattering, Macromolecules, 10.1021/ma5011827, 47, 17, (6017-6027), (2014).
  Crossref
• Shantanu Pradhan, Chloe S. Chaudhury and Elizabeth A. Lipke, Dual-Phase, Surface Tension-Based Fabrication Method for Generation of Tumor Millibeads, Langmuir, 10.1021/la500402m, 30, 13, (3817-3825), (2014).
  Crossref
• Xiao-Hua Qin, Peter Gruber, Marica Markovic, Birgit Plochberger, Enrico Klotzsch, Jürgen Stampfl, Aleksandr Ovsianikov and Robert Liska, Enzymatic synthesis of hyaluronic acid vinyl esters for two-photon microfabrication of biocompatible and biodegradable hydrogel constructs, Polym. Chem., 10.1039/C4PY00792A, 5, 22, (6523-6533), (2014).
  Crossref
• James V. Crivello and Elsa Reichmanis, Photopolymer Materials and Processes for Advanced Technologies, Chemistry of Materials, 10.1021/cm402262g, 26, 1, (533-548), (2013).
  Crossref
• Eleanor Knight and Stefan Przyborski, Cellular In Vitro Testing, (149), (2014).
  Crossref
• Kara R. Lind, Tom Sizmur, Saida Benomar, Anthony Miller, Ludovico Cademartiri and Matthias Rillig, LEGO® Bricks as Building Blocks for Centimeter-Scale Biological Environments: The Case of Plants, PLoS ONE, 9, 6, (e100867), (2014).
  Crossref
• Aleksandr Ovsianikov, Severin Mühleder, Jan Torgersen, Zhiquan Li, Xiao-Hua Qin, Sandra Van Vlierberghe, Peter Dubruel, Wolfgang Holnthoner, Heinz Redl, Robert Liska and Jürgen Stampfl, Laser Photofabrication of Cell-Containing Hydrogel Constructs, Langmuir, 30, 13, (3787), (2014).
  Crossref
• Britta Burkhardt, Juan José Martinez-Sanchez, Anastasia Bachmann, Ruth Ladurner and Andreas K. Nüssler, Long-term culture of primary hepatocytes: new matrices and microfluidic devices, Hepatology International, 10.1007/s12072-013-9487-3, 8, 1, (14-22), (2013).
  Crossref
• Dror Seliktar, Alexandra Berdichevski, Iris Mironi-Harpaz and Keren Shapira-Schweitzer, Heart Regeneration, Regenerative Medicine Applications in Organ Transplantation, 10.1016/B978-0-12-398523-1.00030-6, (445-455), (2014).
  Crossref
• A. G. Castaño, V. Hortigüela, A. Lagunas, C. Cortina, N. Montserrat, J. Samitier and E. Martínez, Protein patterning on hydrogels by direct microcontact printing: application to cardiac differentiation, RSC Advances, 4, 55, (29120), (2014).
  Crossref
• Vannary Tieng, Luc Stoppini, Sabrina Villy, Marc Fathi, Michel Dubois-Dauphin and Karl-Heinz Krause, Engineering of Midbrain Organoids Containing Long-Lived Dopaminergic Neurons, Stem Cells and Development, 23, 13, (1535), (2014).
  Crossref
• M. Arslan, T. N. Gevrek, A. Sanyal and R. Sanyal, Cyclodextrin mediated polymer coupling via thiol–maleimide conjugation: facile access to functionalizable hydrogels, RSC Adv., 10.1039/C4RA12408A, 4, 101, (57834-57841), (2014).
  Crossref
• Yuhan Wu, Ziqi Zhao, Ying Guan and Yongjun Zhang, Galactosylated reversible hydrogels as scaffold for HepG2 spheroid generation, Acta Biomaterialia, 10, 5, (1965), (2014).
  Crossref
• Huiyuan Wang, Lei Cai, Alexandra Paul, Annika Enejder and Sarah C. Heilshorn, Hybrid Elastin-like Polypeptide–Polyethylene Glycol (ELP-PEG) Hydrogels with Improved Transparency and Independent Control of Matrix Mechanics and Cell Ligand Density, Biomacromolecules, 10.1021/bm500969d, 15, 9, (3421-3428), (2014).
  Crossref
• Dania Movia, Valerie Gerard, Ciaran Manus Maguire, Namrata Jain, Alan P. Bell, Valeria Nicolosi, Tiina O'Neill, Dimitri Scholz, Yurii Gun'ko, Yuri Volkov and Adriele Prina-Mello, A safe-by-design approach to the development of gold nanoboxes as carriers for internalization into cancer cells, Biomaterials, 35, 9, (2543), (2014).
  Crossref
• Zhaobin Guo, Ke Hu, Jianfei Sun, Tianzhu Zhang, Qiying Zhang, Lina Song, Xizhi Zhang and Ning Gu, Fabrication of Hydrogel with Cell Adhesive Micropatterns for Mimicking the Oriented Tumor-Associated Extracellular Matrix, ACS Applied Materials & Interfaces, 6, 14, (10963), (2014).
  Crossref
• Mi Zhou, Rein V Ulijn and Julie E Gough, Extracellular matrix formation in self-assembled minimalistic bioactive hydrogels based on aromatic peptide amphiphiles, Journal of Tissue Engineering, 5, (204173141453159), (2014).
  Crossref
• José Luis Corchero, Esther Vázquez, Elena García-Fruitós, Neus Ferrer-Miralles and Antonio Villaverde, Recombinant protein materials for bioengineering and nanomedicine, Nanomedicine, 10.2217/nnm.14.153, 9, 18, (2817-2828), (2014).
  Crossref
• Megan E. Smithmyer, Lisa A. Sawicki and April M. Kloxin, Hydrogel scaffolds as in vitro models to study fibroblast activation in wound healing and disease , Biomater. Sci., 10.1039/C3BM60319A, 2, 5, (634-650), (2014).
  Crossref
• Marine Verhulsel, Maéva Vignes, Stéphanie Descroix, Laurent Malaquin, Danijela M. Vignjevic and Jean-Louis Viovy, A review of microfabrication and hydrogel engineering for micro-organs on chips, Biomaterials, 10.1016/j.biomaterials.2013.11.021, 35, 6, (1816-1832), (2014).
  Crossref
• Claudio R. Thoma, Miriam Zimmermann, Irina Agarkova, Jens M. Kelm and Wilhelm Krek, 3D cell culture systems modeling tumor growth determinants in cancer target discovery, Advanced Drug Delivery Reviews, 10.1016/j.addr.2014.03.001, 69-70, (29-41), (2014).
  Crossref
• Mokit Chau, Milad Abolhasani, Héloïse Thérien-Aubin, Yang Li, Yihe Wang, Diego Velasco, Ethan Tumarkin, Arun Ramachandran and Eugenia Kumacheva, Microfluidic Generation of Composite Biopolymer Microgels with Tunable Compositions and Mechanical Properties, Biomacromolecules, 15, 7, (2419), (2014).
  Crossref
• Xiaowei Li, Xiaoyan Liu, Ning Zhang and Xuejun Wen, EngineeringIn SituCross-Linkable and Neurocompatible Hydrogels, Journal of Neurotrauma, 31, 16, (1431), (2014).
  Crossref
• Lin Lin, Roger E. Marchant, Junmin Zhu and Kandice Kottke-Marchant, Extracellular matrix-mimetic poly(ethylene glycol) hydrogels engineered to regulate smooth muscle cell proliferation in 3-D, Acta Biomaterialia, 10.1016/j.actbio.2014.08.025, 10, 12, (5106-5115), (2014).
  Crossref
• Kyun Joo Park, Kyoung G. Lee, Seunghwan Seok, Bong Gill Choi, Moon-Keun Lee, Tae Jung Park, Jung Youn Park, Do Hyun Kim and Seok Jae Lee, Micropillar arrays enabling single microbial cell encapsulation in hydrogels, Lab on a Chip, 10.1039/c4lc00070f, 14, 11, (1873), (2014).
  Crossref
• Eun Jeong Kye, Seung-Jin Kim, Min Hee Park, Hyo Jung Moon, Kyung Ha Ryu and Byeongmoon Jeong, Differentiation of Tonsil-Tissue-Derived Mesenchymal Stem Cells Controlled by Surface-Functionalized Microspheres in PEG-Polypeptide Thermogels, Biomacromolecules, 15, 6, (2180), (2014).
  Crossref
• Charles M. Rubert Pérez, Leslie A. Rank and Jean Chmielewski, Tuning the thermosensitive properties of hybrid collagen peptide–polymer hydrogels, Chem. Commun., 10.1039/C4CC03171G, 50, 60, (8174-8176), (2014).
  Crossref
• Hye-Yeong Kim, Eleni A. Skokos, Deborah J. Myer, Perez Agaba and Anjelica L. Gonzalez, αVβ3 Integrin Regulation of Respiratory Burst in Fibrinogen Adherent Human Neutrophils, Cellular and Molecular Bioengineering, 10.1007/s12195-014-0322-2, 7, 2, (231-242), (2014).
  Crossref
• Luca Beria, Tugce Nihal Gevrek, Asli Erdog, Rana Sanyal, Dario Pasini and Amitav Sanyal, ‘Clickable’ hydrogels for all: facile fabrication and functionalization, Biomater. Sci., 10.1039/C3BM60171D, 2, 1, (67-75), (2014).
  Crossref
• Victor W.L. Ng, Julian M.W. Chan, Haritz Sardon, Robert J. Ono, Jeannette M. García, Yi Yan Yang and James L. Hedrick, Antimicrobial hydrogels: A new weapon in the arsenal against multidrug-resistant infections, Advanced Drug Delivery Reviews, 10.1016/j.addr.2014.10.028, 78, (46-62), (2014).
  Crossref
• Galit Fichman and Ehud Gazit, Self-assembly of short peptides to form hydrogels: Design of building blocks, physical properties and technological applications, Acta Biomaterialia, 10.1016/j.actbio.2013.08.013, 10, 4, (1671-1682), (2014).
  Crossref
• Guoliang Ke, Zhi Zhu, Wei Wang, Yuan Zou, Zhichao Guan, Shasha Jia, Huimin Zhang, Xuemeng Wu and Chaoyong James Yang, A Cell-Surface-Anchored Ratiometric Fluorescent Probe for Extracellular pH Sensing, ACS Applied Materials & Interfaces, 6, 17, (15329), (2014).
  Crossref
• Annabel L. Butcher, Giovanni S. Offeddu and Michelle L. Oyen, Nanofibrous hydrogel composites as mechanically robust tissue engineering scaffolds, Trends in Biotechnology, 10.1016/j.tibtech.2014.09.001, 32, 11, (564-570), (2014).
  Crossref
• Jin Wan Park, Yun Dan Kang, Jong Soo Kim, Jae Ho Lee and Hae-Won Kim, 3D microenvironment of collagen hydrogel enhances the release of neurotrophic factors from human umbilical cord blood cells and stimulates the neurite outgrowth of human neural precursor cells, Biochemical and Biophysical Research Communications, 447, 3, (400), (2014).
  Crossref
• Nasim Annabi, Nihal Vrana, Pinar Zorlutuna, Fariba Dehghani and Ali Khademhosseini, Engineering Biomimetic Scaffolds, Scaffolds for Tissue Engineering, 10.1201/b15649-8, (223-262), (2014).
  Crossref
• Akhilesh K. Gaharwar, Nicholas A. Peppas and Ali Khademhosseini, Nanocomposite hydrogels for biomedical applications, Biotechnology and Bioengineering, 111, 3, (441-453), (2013).
  Wiley Online Library
• Elisabeth Mansfield, Tammy L. Oreskovic, Nikki S. Rentz and Kavita M. Jeerage, Three-dimensional hydrogel constructs for exposing cells to nanoparticles, Nanotoxicology, 10.3109/17435390.2013.790998, 8, 4, (394-403), (2013).
  Crossref
• Ping Li, Zongqi Yin, Xiao-Qiu Dou, Guangdong Zhou and Chuan-Liang Feng, Convenient Three-Dimensional Cell Culture in Supermolecular Hydrogels, ACS Applied Materials & Interfaces, 6, 10, (7948), (2014).
  Crossref
• Rasheena Edmondson, Jessica Jenkins Broglie, Audrey F. Adcock and Liju Yang, Three-Dimensional Cell Culture Systems and Their Applications in Drug Discovery and Cell-Based Biosensors, ASSAY and Drug Development Technologies, 10.1089/adt.2014.573, 12, 4, (207-218), (2014).
  Crossref
• Shalini Saxena, Caroline E. Hansen and L. Andrew Lyon, Microgel Mechanics in Biomaterial Design, Accounts of Chemical Research, 10.1021/ar500131v, 47, 8, (2426-2434), (2014).
  Crossref
• Xing Zhu, Yuhong Ma, Changwen Zhao, Zhifeng Lin, Lihua Zhang, Ruichao Chen and Wantai Yang, A Mild Strategy To Encapsulate Enzyme into Hydrogel Layer Grafted on Polymeric Substrate, Langmuir, 30, 50, (15229), (2014).
  Crossref
• Kyung Min Park and Sharon Gerecht, Hypoxia-inducible hydrogels, Nature Communications, 5, (2014).
  Crossref
• Torri Rinker and Johnna Temenoff, Micro- and Nanotechnology Engineering Strategies for Tissue Interface Regeneration and Repair, Tissue and Organ Regeneration, 10.1201/b15595-6, (105-155), (2014).
  Crossref
• Vera A Schulte, Kathrin Hahn, Anandhan Dhanasingh, Karl-Heinz Heffels and Jürgen Groll, Hydrogel–fibre composites with independent control over cell adhesion to gel and fibres as an integral approach towards a biomimetic artificial ECM, Biofabrication, 6, 2, (024106), (2014).
  Crossref
• Mi Hee Jang, Shine Young Kim, Chang-Ki Kim, Sang-Hyun Hwang, Byung Kyu Park, Sung Soo Kim, Eun Yup Lee and Chulhun L. Chang, Early Detection of Mycobacteria Using a Novel Hydrogel Culture Method, Annals of Laboratory Medicine, 34, 1, (26), (2014).
  Crossref
• Emi Y. Tokuda, Jennifer L. Leight and Kristi S. Anseth, Modulation of matrix elasticity with PEG hydrogels to study melanoma drug responsiveness, Biomaterials, 10.1016/j.biomaterials.2014.01.063, 35, 14, (4310-4318), (2014).
  Crossref
• Roger Y Tam, Tobias Fuehrmann, Nikolaos Mitrousis and Molly S Shoichet, Regenerative Therapies for Central Nervous System Diseases: a Biomaterials Approach, Neuropsychopharmacology, 10.1038/npp.2013.237, 39, 1, (169-188), (2013).
  Crossref
• Matthew G. Rubashkin, Guanqing Ou and Valerie M. Weaver, Deconstructing Signaling in Three Dimensions, Biochemistry, 10.1021/bi401710d, 53, 13, (2078-2090), (2014).
  Crossref
• Alexandra Grigore, Bapi Sarker, Ben Fabry, Aldo R. Boccaccini and Rainer Detsch, Behavior of Encapsulated MG-63 Cells in RGD and Gelatine-Modified Alginate Hydrogels, Tissue Engineering Part A, 10.1089/ten.tea.2013.0416, 20, 15-16, (2140-2150), (2014).
  Crossref
• Shimrit Adutler-Lieber, Irina Zaretsky, Ilia Platzman, Janosch Deeg, Nir Friedman, Joachim P. Spatz and Benjamin Geiger, Engineering of synthetic cellular microenvironments: Implications for immunity, Journal of Autoimmunity, 10.1016/j.jaut.2014.05.003, 54, (100-111), (2014).
  Crossref
• F. Raquel Maia, Keila B. Fonseca, Gabriela Rodrigues, Pedro L. Granja and Cristina C. Barrias, Matrix-driven formation of mesenchymal stem cell–extracellular matrix microtissues on soft alginate hydrogels, Acta Biomaterialia, 10, 7, (3197), (2014).
  Crossref
• Queeny Dasgupta, Kaushik Chatterjee and Giridhar Madras, Combinatorial Approach to Develop Tailored Biodegradable Poly(xylitol dicarboxylate) Polyesters, Biomacromolecules, 15, 11, (4302), (2014).
  Crossref
• Hana Maalej, Dorsaf Moalla, Claire Boisset, Sana Bardaa, Hanen Ben Ayed, Zouheir Sahnoun, Tarek Rebai, Moncef Nasri and Noomen Hmidet, Rhelogical, dermal wound healing and in vitro antioxidant properties of exopolysaccharide hydrogel from Pseudomonas stutzeri AS22, Colloids and Surfaces B: Biointerfaces, 123, (814), (2014).
  Crossref
• Umut A. Gurkan, Rami El Assal, Simin E. Yildiz, Yuree Sung, Alexander J. Trachtenberg, Winston P. Kuo and Utkan Demirci, Engineering Anisotropic Biomimetic Fibrocartilage Microenvironment by Bioprinting Mesenchymal Stem Cells in Nanoliter Gel Droplets, Molecular Pharmaceutics, 10.1021/mp400573g, 11, 7, (2151-2159), (2014).
  Crossref
• Savas Tasoglu, Umut Gurkan, Sinan Guven and Utkan Demirci, Organ Printing and Cell Encapsulation, Scaffolds for Tissue Engineering, 10.1201/b15649-14, (491-527), (2014).
  Crossref
• G. Orive, E. Santos, J.L. Pedraz and R.M. Hernández, Application of cell encapsulation for controlled delivery of biological therapeutics, Advanced Drug Delivery Reviews, 10.1016/j.addr.2013.07.009, 67-68, (3-14), (2014).
  Crossref
• Chien-Yu Fu, Sheng-Yang Tseng, Shih-Mo Yang, Long Hsu, Cheng-Hsien Liu and Hwan-You Chang, A microfluidic chip with a U-shaped microstructure array for multicellular spheroid formation, culturing and analysis, Biofabrication, 6, 1, (015009), (2014).
  Crossref
• Keila B. Fonseca, David B. Gomes, Kangwon Lee, Susana G. Santos, Aureliana Sousa, Eduardo A. Silva, David J. Mooney, Pedro L. Granja and Cristina C. Barrias, Injectable MMP-Sensitive Alginate Hydrogels as hMSC Delivery Systems, Biomacromolecules, 10.1021/bm4016495, 15, 1, (380-390), (2014).
  Crossref
• Lucília P. da Silva, Mariana T. Cerqueira, Rui A. Sousa, Rui L. Reis, Vitor M. Correlo and Alexandra P. Marques, Engineering cell-adhesive gellan gum spongy-like hydrogels for regenerative medicine purposes, Acta Biomaterialia, 10.1016/j.actbio.2014.07.009, 10, 11, (4787-4797), (2014).
  Crossref
• Yu Zhao, Rui Yao, Liliang Ouyang, Hongxu Ding, Ting Zhang, Kaitai Zhang, Shujun Cheng and Wei Sun, Three-dimensional printing of Hela cells for cervical tumor modelin vitro, Biofabrication, 6, 3, (035001), (2014).
  Crossref
• Caidan Zhang, Shaohua Wu and Xiaohong Qin, Facile fabrication of novel pH-sensitive poly(aspartic acid) hydrogel by crosslinking nanofibers, Materials Letters, 132, (393), (2014).
  Crossref
• Luis A Castillo Diaz, Alberto Saiani, Julie E Gough and Aline F Miller, Human osteoblasts within soft peptide hydrogels promote mineralisation in vitro, Journal of Tissue Engineering, 10.1177/2041731414539344, 5, (204173141453934), (2014).
  Crossref
• Federico Ferro, Chelsea Shields Baheney and Renza Spelat, Three-Dimensional (3D) Cell Culture Conditions, Present and Future Improvements, Razavi International Journal of Medicine, 2, (2014).
  Crossref
• Kristie M. Charoen, Brian Fallica, Yolonda L. Colson, Muhammad H. Zaman and Mark W. Grinstaff, Embedded multicellular spheroids as a biomimetic 3D cancer model for evaluating drug and drug-device combinations, Biomaterials, 10.1016/j.biomaterials.2013.11.038, 35, 7, (2264-2271), (2014).
  Crossref
• E.L. da Rocha, L.M. Porto and C.R. Rambo, Nanotechnology meets 3D in vitro models: Tissue engineered tumors and cancer therapies, Materials Science and Engineering: C, 10.1016/j.msec.2013.09.019, 34, (270-279), (2014).
  Crossref
• Ji Wang and Amrinder S. Nain, Suspended Micro/Nanofiber Hierarchical Biological Scaffolds Fabricated Using Non-Electrospinning STEP Technique, Langmuir, 10.1021/la503011u, 30, 45, (13641-13649), (2014).
  Crossref
• Kristina Olofsson, Michael Malkoch and Anders Hult, Soft hydrogels from tetra-functional PEGs using UV-induced thiol–ene coupling chemistry: a structure-to-property study, RSC Advances, 10.1039/C4RA04335A, 4, 57, (30118), (2014).
  Crossref
• Xiao‐Hua Qin, Jan Torgersen, Robert Saf, Severin Mühleder, Niklas Pucher, S. Clark Ligon, Wolfgang Holnthoner, Heinz Redl, Aleksandr Ovsianikov, Jürgen Stampfl and Robert Liska, Three‐dimensional microfabrication of protein hydrogels via two‐photon‐excited thiol‐vinyl ester photopolymerization, Journal of Polymer Science Part A: Polymer Chemistry, 51, 22, (4799-4810), (2013).
  Wiley Online Library
• Savas Tasoglu, Doga Kavaz, Umut Atakan Gurkan, Sinan Guven, Pu Chen, Reila Zheng and Utkan Demirci, Paramagnetic Levitational Assembly of Hydrogels, Advanced Materials, 25, 8, (1137-1143), (2012).
  Wiley Online Library
• Penghe Qiu, Xuewei Qu, Daniel J. Brackett, Megan R. Lerner, Dong Li and Chuanbin Mao, Silica‐Based Branched Hollow Microfibers as a Biomimetic Extracellular Matrix for Promoting Tumor Cell Growth In Vitro and In Vivo, Advanced Materials, 25, 17, (2492-2496), (2013).
  Wiley Online Library
• Dror Seliktar, Daniel Dikovsky and Eduardo Napadensky, Bioprinting and Tissue Engineering: Recent Advances and Future Perspectives, Israel Journal of Chemistry, 53, 9‐10, (795-804), (2013).
  Wiley Online Library
• Philipp S. Lienemann, Maria Karlsson, Ana Sala, Hanna M. Wischhusen, Franz E. Weber, Roland Zimmermann, Wilfried Weber, Matthias P. Lutolf and Martin Ehrbar, A Versatile Approach to Engineering Biomolecule‐Presenting Cellular Microenvironments, Advanced Healthcare Materials, 2, 2, (292-296), (2012).
  Wiley Online Library
• Ana Salomé Veiga and Joel P. Schneider, Antimicrobial hydrogels for the treatment of infection, Peptide Science, 100, 6, (637-644), (2013).
  Wiley Online Library
• Mark W. Tibbitt, April M. Kloxin and Kristi S. Anseth, Modeling controlled photodegradation in optically thick hydrogels, Journal of Polymer Science Part A: Polymer Chemistry, 51, 9, (1899-1911), (2013).
  Wiley Online Library
• Sean V. Murphy, Aleksander Skardal and Anthony Atala, Evaluation of hydrogels for bio‐printing applications, Journal of Biomedical Materials Research Part A, 101A, 1, (272-284), (2012).
  Wiley Online Library
• Sanna Turunen, Anne‐Marie Haaparanta, Riikka Äänismaa and Minna Kellomäki, Chemical and topographical patterning of hydrogels for neural cell guidance in vitro, Journal of Tissue Engineering and Regenerative Medicine, 7, 4, (253-270), (2011).
  Wiley Online Library
• Sanjun Zhao, Runchi Gao, Peter N. Devreotes, Alex Mogilner and Min Zhao, 3D Arrays for high throughput assay of cell migration and electrotaxis, Cell Biology International, 37, 9, (995-1002), (2013).
  Wiley Online Library
• Omri Regev, Chaganti Srinivasa Reddy, Nora Nseir and Eyal Zussman, Hydrogel Reinforced by Short Albumin Fibers: Mechanical Characterization and Assessment of Biocompatibility, Macromolecular Materials and Engineering, 298, 3, (283-291), (2012).
  Wiley Online Library
• Su Ryon Shin, Behnaz Aghaei‐Ghareh‐Bolagh, Tram T. Dang, Seda Nur Topkaya, Xiguang Gao, Seung Yun Yang, Sung Mi Jung, Jong Hyun Oh, Mehmet R. Dokmeci, Xiaowu (Shirley) Tang and Ali Khademhosseini, Cell‐laden Microengineered and Mechanically Tunable Hybrid Hydrogels of Gelatin and Graphene Oxide, Advanced Materials, 25, 44, (6385-6391), (2013).
  Wiley Online Library
• Michael V. Turturro, Daniela María Vélez Rendón, Fouad Teymour and Georgia Papavasiliou, Kinetic Investigation of Poly(ethylene glycol) Hydrogel Formation via Perfusion‐Based Frontal Photopolymerization: Influence of Free‐Radical Polymerization Conditions on Frontal Velocity and Swelling Gradients, Macromolecular Reaction Engineering, 7, 2, (107-115), (2013).
  Wiley Online Library
• Dylan Jack Richards, Yu Tan, Jia Jia, Hai Yao and Ying Mei, 3D Printing for Tissue Engineering, Israel Journal of Chemistry, 53, 9‐10, (805-814), (2013).
  Wiley Online Library
• Evan M. White, Jeremy Yatvin, Joe B. Grubbs, Jenna A. Bilbrey and Jason Locklin, Advances in smart materials: Stimuli‐responsive hydrogel thin films, Journal of Polymer Science Part B: Polymer Physics, 51, 14, (1084-1099), (2013).
  Wiley Online Library
• J. Carlos Rodríguez‐Cabello, A. Fernández‐Colino, M. J. Piña, M. Alonso, M. Santos and A. M. Testera, Bioactive and Smart Hydrogel Surfaces, Biomaterials Surface Science, (239-268), (2013).
  Wiley Online Library
• Jordan Raphel, Andreina Parisi‐Amon and Sarah C. Heilshorn, Protein‐Engineered Hydrogels, Biomaterials Surface Science, (205-237), (2013).
  Wiley Online Library
• Xiaohua Geng and Xiumei Mo, Hierarchically designed interpenetrating network hydrogels of oxidized dextran, amino gelatin, and poly(ethylene glycol) diacrylate for tissue engineering, Journal of Controlled Release, 172, 1, (e143), (2013).
  Crossref
• Mohammad A. Alamein, Sebastien Stephens, Qin Liu, Stuart Skabo and Patrick H. Warnke, Mass Production of Nanofibrous Extracellular Matrix with Controlled 3D Morphology for Large-Scale Soft Tissue Regeneration, Tissue Engineering Part C: Methods, 19, 6, (458), (2013).
  Crossref
• C.S. Shin, B. Kwak, B. Han, K. Park and A. Panitch, 3D cancer tumor models for evaluating chemotherapeutic efficacy, Biomaterials for Cancer Therapeutics, 10.1533/9780857096760.4.445, (445-460), (2013).
  Crossref
• Mark W. Tibbitt, Ali Fathi, Fariba Dehghani, Mehmet R. Dokmeci and Ali Khademhosseini, Research highlights, Lab on a Chip, 13, 16, (3148), (2013).
  Crossref
• Asad Raza, Chang Seok Ki and Chien-Chi Lin, The influence of matrix properties on growth and morphogenesis of human pancreatic ductal epithelial cells in 3D, Biomaterials, 10.1016/j.biomaterials.2013.03.086, 34, 21, (5117-5127), (2013).
  Crossref
• Gloria A. A. Saracino, Daniela Cigognini, Diego Silva, Andrea Caprini and Fabrizio Gelain, Nanomaterials design and tests for neural tissue engineering, Chem. Soc. Rev., 10.1039/C2CS35065C, 42, 1, (225-262), (2013).
  Crossref
• Julia Dahlmann, Andreas Krause, Lena Möller, George Kensah, Markus Möwes, Astrid Diekmann, Ulrich Martin, Andreas Kirschning, Ina Gruh and Gerald Dräger, Fully defined in situ cross-linkable alginate and hyaluronic acid hydrogels for myocardial tissue engineering, Biomaterials, 10.1016/j.biomaterials.2012.10.008, 34, 4, (940-951), (2013).
  Crossref
• Jennifer L. Leight, Daniel L. Alge, Andrew J. Maier and Kristi S. Anseth, Direct measurement of matrix metalloproteinase activity in 3D cellular microenvironments using a fluorogenic peptide substrate, Biomaterials, 10.1016/j.biomaterials.2013.06.023, 34, 30, (7344-7352), (2013).
  Crossref
• Savas Tasoglu, Umut Atakan Gurkan, ShuQi Wang and Utkan Demirci, Manipulating biological agents and cells in micro-scale volumes for applications in medicine, Chemical Society Reviews, 10.1039/c3cs60042d, 42, 13, (5788), (2013).
  Crossref
• Yuji Yamada, Kentaro Hozumi, Fumihiko Katagiri, Yamato Kikkawa and Motoyoshi Nomizu, Laminin-111-derived peptide-hyaluronate hydrogels as a synthetic basement membrane, Biomaterials, 10.1016/j.biomaterials.2013.05.044, 34, 28, (6539-6547), (2013).
  Crossref
• Sultan Zeb Khan, Eitoyo Kokubu, Kenichi Matsuzaka and Takashi Inoue, Behaviour of rat‐cultured dental pulp cells in three‐dimensional collagen type‐1 gel in vitro and in vivo, Australian Endodontic Journal, 39, 3, (137-145), (2012).
  Wiley Online Library
• Kanika Vats and Danielle S.W. Benoit, Dynamic Manipulation of Hydrogels to Control Cell Behavior: A Review, Tissue Engineering Part B: Reviews, 10.1089/ten.teb.2012.0716, 19, 6, (455-469), (2013).
  Crossref
• Mark W. Tibbitt, April M. Kloxin, Lisa A. Sawicki and Kristi S. Anseth, Mechanical Properties and Degradation of Chain and Step-Polymerized Photodegradable Hydrogels, Macromolecules, 10.1021/ma302522x, 46, 7, (2785-2792), (2013).
  Crossref
• Steven Maude, Eileen Ingham and Amalia Aggeli, Biomimetic self-assembling peptides as scaffolds for soft tissue engineering, Nanomedicine, 10.2217/nnm.13.65, 8, 5, (823-847), (2013).
  Crossref
• Minna Ampuja, Riikka Jokimäki, Kati Juuti-Uusitalo, Alejandra Rodriguez-Martinez, Emma-Leena Alarmo and Anne Kallioniemi, BMP4 inhibits the proliferation of breast cancer cells and induces an MMP-dependent migratory phenotype in MDA-MB-231 cells in 3D environment, BMC Cancer, 10.1186/1471-2407-13-429, 13, 1, (2013).
  Crossref
• Runhui Liu, Xinyu Chen, Samuel H. Gellman and Kristyn S. Masters, Nylon-3 Polymers That Enable Selective Culture of Endothelial Cells, Journal of the American Chemical Society, 10.1021/ja408634a, 135, 44, (16296-16299), (2013).
  Crossref
2013 Transducers & Eurosensors XXVII: The 17th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS & EUROSENSORS XXVII) Barcelona, Spain 2013 Transducers & Eurosensors XXVII: The 17th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS & EUROSENSORS XXVII) IEEE , (2013). 978-1-4673-5983-2 S. T. Beyer, A. Bsoul, A. Ahmadi and K. Walus 3D alginate constructs for tissue engineering printed using a coaxial flow focusing microfluidic device , (2013). 1206 1209 6626990 , 10.1109/Transducers.2013.6626990 http://ieeexplore.ieee.org/document/6626990/
• Rémi Roux, Catherine Ladavière, Alexandra Montembault, Laurent David and Thierry Delair, Shear Thinning Three-Dimensional Colloidal Assemblies of Chitosan and Poly(lactic acid) Nanoparticles, The Journal of Physical Chemistry B, 117, 24, (7455), (2013).
  Crossref
• Daniel Butzke, Barbara Grune, Josephine Kugler, Michael Oelgeschläger, Andrea Seiler, Dana Sittner, Manfred Liebsch and Andreas Luch, The Advent of the Golden Era of Animal Alternatives, Animal Models for the Study of Human Disease, 10.1016/B978-0-12-415894-8.00003-8, (49-73), (2013).
  Crossref
• Xiaowei Li, Xiaoyan Liu, Lin Cui, Christopher Brunson, Wen Zhao, Narayan R. Bhat, Ning Zhang and Xuejun Wen, Engineering an in situ crosslinkable hydrogel for enhanced remyelination, The FASEB Journal, 27, 3, (1127), (2013).
  Crossref
• Daniel L. Alge, Malar A. Azagarsamy, Dillon F. Donohue and Kristi S. Anseth, Synthetically Tractable Click Hydrogels for Three-Dimensional Cell Culture Formed Using Tetrazine–Norbornene Chemistry, Biomacromolecules, 10.1021/bm4000508, 14, 4, (949-953), (2013).
  Crossref
• Dafna Kesselman, Olga Kossover, Iris Mironi-Harpaz and Dror Seliktar, Time-dependent cellular morphogenesis and matrix stiffening in proteolytically responsive hydrogels, Acta Biomaterialia, 9, 8, (7630), (2013).
  Crossref
• Brennan M. Bailey, Lindsay N. Nail and Melissa A. Grunlan, Continuous gradient scaffolds for rapid screening of cell–material interactions and interfacial tissue regeneration, Acta Biomaterialia, 9, 9, (8254), (2013).
  Crossref
• Peter DelNero, Young Hye Song and Claudia Fischbach, Microengineered tumor models: insights & opportunities from a physical sciences-oncology perspective, Biomedical Microdevices, 10.1007/s10544-013-9763-y, 15, 4, (583-593), (2013).
  Crossref
• Biji Balakrishnan, Nitin Joshi and Rinti Banerjee, Borate aided Schiff's base formation yields in situ gelling hydrogels for cartilage regeneration, Journal of Materials Chemistry B, 1, 41, (5564), (2013).
  Crossref
• Ting Wang, Ling-lei Zhang and Xiao-jia He, Preparation and Characterization of a Novel Hybrid Hydrogel Composed ofBombyx moriFibroin and Poly(N-isopropylacrylamide), Journal of Nanomaterials, 2013, (1), (2013).
  Crossref
• Evan M. White, Jonathan E. Seppala, Parker M. Rushworth, Branson W. Ritchie, Suraj Sharma and Jason Locklin, Switching the Adhesive State of Catecholic Hydrogels using Phototitration, Macromolecules, 10.1021/ma401594z, 46, 22, (8882-8887), (2013).
  Crossref
• Branden Reid, Junaid M. Afzal, Annemarie M. McCartney, M. Roselle Abraham, Brian O'Rourke and Jennifer H. Elisseeff, Enhanced Tissue Production through Redox Control in Stem Cell-Laden Hydrogels, Tissue Engineering Part A, 19, 17-18, (2014), (2013).
  Crossref
• Patrick H. Warnke, Mohammad Alamein, Stuart Skabo, Sebastien Stephens, Robert Bourke, Peter Heiner and Qin Liu, Primordium of an artificial Bruch’s membrane made of nanofibers for engineering of retinal pigment epithelium cell monolayers, Acta Biomaterialia, 9, 12, (9414), (2013).
  Crossref
• M.D. Stevenson, H. Piristine, N.J. Hogrebe, T.M. Nocera, M.W. Boehm, R.K. Reen, K.W. Koelling, G. Agarwal, A.L. Sarang-Sieminski and K.J. Gooch, A self-assembling peptide matrix used to control stiffness and binding site density supports the formation of microvascular networks in three dimensions, Acta Biomaterialia, 10.1016/j.actbio.2013.04.002, 9, 8, (7651-7661), (2013).
  Crossref
• Shun-Cheng Wu, Chung-Hwan Chen, Je-Ken Chang, Yin-Chih Fu, Chih-Kuang Wang, Rajalakshmanan Eswaramoorthy, Yi-Shan Lin, Yao-Hsien Wang, Sung-Yen Lin, Gwo-Jaw Wang and Mei-Ling Ho, Hyaluronan initiates chondrogenesis mainly via CD44 in human adipose-derived stem cells, Journal of Applied Physiology, 114, 11, (1610), (2013).
  Crossref
• Pranav Soman, Peter H. Chung, A. Ping Zhang and Shaochen Chen, Digital microfabrication of user‐defined 3D microstructures in cell‐laden hydrogels, Biotechnology and Bioengineering, 110, 11, (3038-3047), (2013).
  Wiley Online Library
• Jin-Hyung Shim, Arthur Joon Kim, Ju Young Park, Namwoo Yi, Inhye Kang, Jaesung Park, Jong-Won Rhie and Dong-Woo Cho, Effect of solid freeform fabrication-based polycaprolactone/poly(lactic-co-glycolic acid)/collagen scaffolds on cellular activities of human adipose-derived stem cells and rat primary hepatocytes, Journal of Materials Science: Materials in Medicine, 10.1007/s10856-013-4867-8, 24, 4, (1053-1065), (2013).
  Crossref
• Bart Schurink and Regina Luttge, Hydrogel/poly-dimethylsiloxane hybrid bioreactor facilitating 3D cell culturing, Journal of Vacuum Science & Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phenomena, 31, 6, (06F903), (2013).
  Crossref
• Chang Seok Ki, Han Shih and Chien-Chi Lin, Effect of 3D Matrix Compositions on the Efficacy of EGFR Inhibition in Pancreatic Ductal Adenocarcinoma Cells, Biomacromolecules, 10.1021/bm4004496, 14, 9, (3017-3026), (2013).
  Crossref
• Murat Guvendiren and Jason A Burdick, Engineering synthetic hydrogel microenvironments to instruct stem cells, Current Opinion in Biotechnology, 10.1016/j.copbio.2013.03.009, 24, 5, (841-846), (2013).
  Crossref
• Kangning Ren, Jianhua Zhou and Hongkai Wu, Materials for Microfluidic Chip Fabrication, Accounts of Chemical Research, 10.1021/ar300314s, 46, 11, (2396-2406), (2013).
  Crossref
• Xiaofeng Sui, Xueling Feng, Andrea Di Luca, Clemens A. van Blitterswijk, Lorenzo Moroni, Mark A. Hempenius and G. Julius Vancso, Poly(N-isopropylacrylamide)–poly(ferrocenylsilane) dual-responsive hydrogels: synthesis, characterization and antimicrobial applications, Polym. Chem., 10.1039/C2PY20431B, 4, 2, (337-342), (2013).
  Crossref
• Jae Hyun Jeong, Youyun Liang, Michelle Jang, Chaenyung Cha, Cathy Chu, Haekwang Lee, Woonggyu Jung, Jin Woong Kim, Stephen A. Boppart and Hyunjoon Kong, Stiffness-Modulated Water Retention and Neovascularization of Dermal Fibroblast-Encapsulating Collagen Gel, Tissue Engineering Part A, 10.1089/ten.tea.2012.0230, 19, 11-12, (1275-1284), (2013).
  Crossref
• Matthew S. Rehmann and April M. Kloxin, Tunable and dynamic soft materials for three-dimensional cell culture, Soft Matter, 10.1039/C3SM50217A, 9, 29, (6737-6746), (2013).
  Crossref
• Jonathan M. Page, Andrew J. Harmata and Scott A. Guelcher, Design and development of reactive injectable and settable polymeric biomaterials, Journal of Biomedical Materials Research Part A, 101, 12, (3630-3645), (2013).
  Wiley Online Library
• Hongzhou Huang, Ying Ding, Xiuzhi S. Sun, Thu A. Nguyen and Adam J. Engler, Peptide Hydrogelation and Cell Encapsulation for 3D Culture of MCF-7 Breast Cancer Cells, PLoS ONE, 8, 3, (e59482), (2013).
  Crossref
• Keila B. Fonseca, F. Raquel Maia, Filipe A. Cruz, Douglas Andrade, Maria A. Juliano, Pedro L. Granja and Cristina C. Barrias, Enzymatic, physicochemical and biological properties of MMP-sensitive alginate hydrogels, Soft Matter, 10.1039/c3sm27560d, 9, 12, (3283), (2013).
  Crossref
• Prathamesh M. Kharkar, Kristi L. Kiick and April M. Kloxin, Designing degradable hydrogels for orthogonal control of cell microenvironments, Chem. Soc. Rev., 10.1039/C3CS60040H, 42, 17, (7335-7372), (2013).
  Crossref
• Edorta Santos, José Luis Pedraz, Rosa María Hernández and Gorka Orive, Therapeutic cell encapsulation: Ten steps towards clinical translation, Journal of Controlled Release, 10.1016/j.jconrel.2013.04.015, 170, 1, (1-14), (2013).
  Crossref
• Elena G. Popa, Márcia T. Rodrigues, Daniela F. Coutinho, Mariana B. Oliveira, João F. Mano, Rui L. Reis and Manuela E. Gomes, Cryopreservation of cell laden natural origin hydrogels for cartilage regeneration strategies, Soft Matter, 9, 3, (875), (2013).
  Crossref
• Sascha Heinemann, Thibaud Coradin and Martin F. Desimone, Bio-inspired silica–collagen materials: applications and perspectives in the medical field, Biomaterials Science, 10.1039/c3bm00014a, 1, 7, (688), (2013).
  Crossref
• Timothy M. A. Henderson, Katharina Ladewig, David N. Haylock, Keith M. McLean and Andrea J. O'Connor, Cryogels for biomedical applications, Journal of Materials Chemistry B, 10.1039/c3tb20280a, 1, 21, (2682), (2013).
  Crossref
• Myunghwan Choi, Jin Woo Choi, Seonghoon Kim, Sedat Nizamoglu, Sei Kwang Hahn and Seok Hyun Yun, Light-guiding hydrogels for cell-based sensing and optogenetic synthesis in vivo, Nature Photonics, 7, 12, (987), (2013).
  Crossref
• Dmitry V. Ostanin and Dhruva Bhattacharya, Myeloid-derived Suppressor Cells in the Inflammatory Bowel Diseases, Inflammatory Bowel Diseases, 10.1097/MIB.0b013e3182902b11, 19, 11, (2468-2477), (2013).
  Crossref
• Gil Topman, Naama Shoham, Orna Sharabani-Yosef, Feng-Huei Lin and Amit Gefen, A new technique for studying directional cell migration in a hydrogel-based three-dimensional matrix for tissue engineering model systems, Micron, 51, (9), (2013).
  Crossref
• Núria Marí-Buyé, Tomás Luque, Daniel Navajas and Carlos E. Semino, Development of a Three-Dimensional Bone-Like Construct in a Soft Self-Assembling Peptide Matrix, Tissue Engineering Part A, 19, 7-8, (870), (2013).
  Crossref
• Ngoc-Thach Huynh, Young-Sil Jeon, Dukjoon Kim and Ji-Heung Kim, Preparation and swelling properties of “click” hydrogel from polyaspartamide derivatives using tri-arm PEG and PEG-co-poly(amino urethane) azides as crosslinking agents, Polymer, 10.1016/j.polymer.2013.01.001, 54, 4, (1341-1349), (2013).
  Crossref
• Argia Acarregui, Jose Luis Pedraz, Francisco Javier Blanco, Rosa María Hernández and Gorka Orive, Hydrogel-Based Scaffolds for Enclosing Encapsulated Therapeutic Cells, Biomacromolecules, 14, 2, (322), (2013).
  Crossref
• Malar A. Azagarsamy and Kristi S. Anseth, Bioorthogonal Click Chemistry: An Indispensable Tool to Create Multifaceted Cell Culture Scaffolds, ACS Macro Letters, 10.1021/mz300585q, 2, 1, (5-9), (2013).
  Crossref
• Andreas Blaeser, Daniela F. Duarte Campos, Michael Weber, Sabine Neuss, Benjamin Theek, Horst Fischer and Willi Jahnen-Dechent, Biofabrication Under Fluorocarbon: A Novel Freeform Fabrication Technique to Generate High Aspect Ratio Tissue-Engineered Constructs, BioResearch Open Access, 2, 5, (374), (2013).
  Crossref
• Ping Li, Xiao-Qiu Dou, Chuan-Liang Feng and Di Zhang, Mechanical reinforcement of C2-phenyl-derived hydrogels for controlled cell adhesion, Soft Matter, 10.1039/c3sm27727e, 9, 14, (3750), (2013).
  Crossref
• Jonathan Lam and Tatiana Segura, The modulation of MSC integrin expression by RGD presentation, Biomaterials, 34, 16, (3938), (2013).
  Crossref
• Elizabeth F. Irwin, Jacob F. Pollock, David V. Schaffer and Kevin E. Healy, Designing Tunable Artificial Matrices for Stem Cell Culture, Handbook of Stem Cells, 10.1016/B978-0-12-385942-6.00076-7, (927-935), (2013).
  Crossref
• Jonathan Hertz, Rebecca Robinson, Daniel A. Valenzuela, Erin B. Lavik and Jeffrey L. Goldberg, A tunable synthetic hydrogel system for culture of retinal ganglion cells and amacrine cells, Acta Biomaterialia, 10.1016/j.actbio.2013.04.048, 9, 8, (7622-7629), (2013).
  Crossref
• Xin Ting Zheng, Ling Yu, Peiwu Li, Hua Dong, Yingjun Wang, Yun Liu and Chang Ming Li, On-chip investigation of cell–drug interactions, Advanced Drug Delivery Reviews, 10.1016/j.addr.2013.02.001, 65, 11-12, (1556-1574), (2013).
  Crossref
• Ding-Yuan Chen, Hao-Ji Wei, Kun-Ju Lin, Chieh-Cheng Huang, Chung-Chi Wang, Cheng-Tse Wu, Ko-Ting Chao, Ko-Jie Chen, Yen Chang and Hsing-Wen Sung, Three-dimensional cell aggregates composed of HUVECs and cbMSCs for therapeutic neovascularization in a mouse model of hindlimb ischemia, Biomaterials, 34, 8, (1995), (2013).
  Crossref
• Jindřich Kopeček and Jiyuan Yang, Smart Self‐Assembled Hybrid Hydrogel Biomaterials, Angewandte Chemie International Edition, 51, 30, (7396-7417), (2012).
  Wiley Online Library
• Betül Çelebi, Maxime Cloutier, Rodrigo Balloni, Diego Mantovani and Antonella Bandiera, Human Elastin‐Based Recombinant Biopolymers Improve Mesenchymal Stem Cell Differentiation, Macromolecular Bioscience, 12, 11, (1546-1554), (2012).
  Wiley Online Library
• Umut Atakan Gurkan, Savas Tasoglu, Doga Kavaz, Melik C. Demirel and Utkan Demirci, Emerging Technologies for Assembly of Microscale Hydrogels, Advanced Healthcare Materials, 1, 2, (149-158), (2012).
  Wiley Online Library
• Jindřich Kopeček and Jiyuan Yang, “Intelligente” Biomaterialien durch Selbstorganisation von Hybridhydrogelen, Angewandte Chemie, 124, 30, (7512-7535), (2012).
  Wiley Online Library
• Anna K. Blakney, Mark D. Swartzlander and Stephanie J. Bryant, Student award winner in the undergraduate category for the society of biomaterials 9th World Biomaterials Congress, Chengdu, China, June 1–5, 2012, Journal of Biomedical Materials Research Part A, 100A, 6, (1375-1386), (2012).
  Wiley Online Library
• Mark W. Tibbitt, Bruce W. Han, April M. Kloxin and Kristi S. Anseth, Student award for outstanding research winner in the Ph.D. category for the 9th World Biomaterials Congress, Chengdu, China, June 1–5, 2012, Journal of Biomedical Materials Research Part A, 100A, 7, (1647-1654), (2012).
  Wiley Online Library
• Runhui Liu, Kang Z. Vang, Pamela K. Kreeger, Samuel H. Gellman and Kristyn S. Masters, Experimental and computational analysis of cellular interactions with nylon‐3‐bearing substrates, Journal of Biomedical Materials Research Part A, 100A, 10, (2750-2759), (2012).
  Wiley Online Library
• Pinar Zorlutuna, Nasim Annabi, Gulden Camci‐Unal, Mehdi Nikkhah, Jae Min Cha, Jason W. Nichol, Amir Manbachi, Hojae Bae, Shaochen Chen and Ali Khademhosseini, Microfabricated Biomaterials for Engineering 3D Tissues, Advanced Materials, 24, 14, (1782-1804), (2012).
  Wiley Online Library
• A. Ping Zhang, Xin Qu, Pranav Soman, Kolin C. Hribar, Jin W. Lee, Shaochen Chen and Sailing He, Rapid Fabrication of Complex 3D Extracellular Microenvironments by Dynamic Optical Projection Stereolithography, Advanced Materials, 24, 31, (4266-4270), (2012).
  Wiley Online Library
• Cole A. DeForest and Kristi S. Anseth, Photoreversible Patterning of Biomolecules within Click‐Based Hydrogels, Angewandte Chemie, 124, 8, (1852-1855), (2011).
  Wiley Online Library
• Cole A. DeForest and Kristi S. Anseth, Photoreversible Patterning of Biomolecules within Click‐Based Hydrogels, Angewandte Chemie International Edition, 51, 8, (1816-1819), (2011).
  Wiley Online Library
• Yi Cheng, Chen‐Yu Tsao, Hsuan‐Chen Wu, Xiaolong Luo, Jessica L. Terrell, Jordan Betz, Gregory F. Payne, William E. Bentley and Gary W. Rubloff, Electroaddressing Functionalized Polysaccharides as Model Biofilms for Interrogating Cell Signaling, Advanced Functional Materials, 22, 3, (519-528), (2011).
  Wiley Online Library
• Ross DeVolder and Hyun‐Joon Kong, Hydrogels for in vivo‐like three‐dimensional cellular studies, Wiley Interdisciplinary Reviews: Systems Biology and Medicine, 4, 4, (351-365), (2012).
  Wiley Online Library
• Gerrit Erdmann, Christian Volz and Michael Boutros, Systematic approaches to dissect biological processes in stem cells by image‐based screening, Biotechnology Journal, 7, 6, (768-778), (2012).
  Wiley Online Library
• Iris Mironi‐Harpaz, Olga Kossover, Eran Ivanir and Dror Seliktar, Biomimetic Hydrogels for Regenerative Medicine, Biomimetic Approaches for Biomaterials Development, (503-513), (2012).
  Wiley Online Library
• Christophe Helary and Abhay Pandit, Collagen‐Based Biomaterials for Regenerative Medicine, Biomimetic Approaches for Biomaterials Development, (55-74), (2012).
  Wiley Online Library
2012 IEEE 25th International Conference on Micro Electro Mechanical Systems (MEMS) Paris, France 2012 IEEE 25th International Conference on Micro Electro Mechanical Systems (MEMS) IEEE , (2012). 978-1-4673-0325-5 978-1-4673-0324-8 L. K. Chin, K. Q. Luo, W. Park, M. Je, J. Tsai, D. L. Kwong and A. Q. Liu Double-layer hepatocyte tumor co-culture using hydrogel for drug effectivity and specificity analysis , (2012). 808 811 6170309 , 10.1109/MEMSYS.2012.6170309 http://ieeexplore.ieee.org/document/6170309/
• Thomas Billiet, Mieke Vandenhaute, Jorg Schelfhout, Sandra Van Vlierberghe and Peter Dubruel, A review of trends and limitations in hydrogel-rapid prototyping for tissue engineering, Biomaterials, 10.1016/j.biomaterials.2012.04.050, 33, 26, (6020-6041), (2012).
  Crossref
• Emilie Hachet, Hélène Van Den Berghe, Eric Bayma, Marc R. Block and Rachel Auzély-Velty, Design of Biomimetic Cell-Interactive Substrates Using Hyaluronic Acid Hydrogels with Tunable Mechanical Properties, Biomacromolecules, 10.1021/bm300324m, 13, 6, (1818-1827), (2012).
  Crossref
• Daniel G.T. Strange and Michelle L. Oyen, Composite hydrogels for nucleus pulposus tissue engineering, Journal of the Mechanical Behavior of Biomedical Materials, 10.1016/j.jmbbm.2011.10.003, 11, (16-26), (2012).
  Crossref
• K. V. Lisitskaya, I. V. Nikolaev, A. A. Torkova, V. O. Popov and O. V. Koroleva, Analysis of functional properties of biologically active substances using eukaryotic cell models (review), Applied Biochemistry and Microbiology, 10.1134/S0003683812060087, 48, 6, (525-540), (2012).
  Crossref
• Derek M. Ryan and Bradley L. Nilsson, Self-assembled amino acids and dipeptides as noncovalent hydrogels for tissue engineering, Polym. Chem., 10.1039/C1PY00335F, 3, 1, (18-33), (2012).
  Crossref
• Indong Jun, Min Kim, Ji-Hye Lee, Young Shin and Heungsoo Shin, Biomimetic Approaches in Tissue Engineering, Tissue Engineering, 10.1201/b13978-15, (1-16), (2013).
  Crossref
• Ryan J. Wade and Jason A. Burdick, Engineering ECM signals into biomaterials, Materials Today, 10.1016/S1369-7021(12)70197-9, 15, 10, (454-459), (2012).
  Crossref
• Benjamin D Zeitlin, Zhihong Dong and Jacques E Nör, RAIN-Droplet: a novel 3D in vitro angiogenesis model, Laboratory Investigation, 92, 7, (988), (2012).
  Crossref
• Ik-Soo Lee, KiHwan Bae, Jae Kuk Yoo, In-Ja Ryoo, Bo Yeon Kim, Jong Seog Ahn and Ick-Dong Yoo, Inhibition of human neutrophil elastase by ergosterol derivatives from the mycelium of Phellinus linteus, The Journal of Antibiotics, 65, 8, (437), (2012).
  Crossref
• Jun Liu, Hongzhi Zhou, Michael D. Weir, Hockin H.K. Xu, Qianming Chen and Carroll Ann Trotman, Fast-Degradable Microbeads Encapsulating Human Umbilical Cord Stem Cells in Alginate for Muscle Tissue Engineering, Tissue Engineering Part A, 10.1089/ten.tea.2011.0658, 18, 21-22, (2303-2314), (2012).
  Crossref
• Badriprasad Ananthanarayanan and Sanjay Kumar, Cell Mechanobiology in Regenerative Medicine, Stem Cell Engineering, 10.1201/b12942-3, (1-16), (2012).
  Crossref
• D. Seliktar, Designing Cell-Compatible Hydrogels for Biomedical Applications, Science, 10.1126/science.1214804, 336, 6085, (1124-1128), (2012).
  Crossref
• Torsten Rossow, John A. Heyman, Allen J. Ehrlicher, Arne Langhoff, David A. Weitz, Rainer Haag and Sebastian Seiffert, Controlled Synthesis of Cell-Laden Microgels by Radical-Free Gelation in Droplet Microfluidics, Journal of the American Chemical Society, 134, 10, (4983), (2012).
  Crossref
• Yong Park, Woo Young Sim and Won Gu Lee, A controllable liquid mold for fabrication of 3D spherical structures and arrays, Microsystem Technologies, 18, 12, (2093), (2012).
  Crossref
• Indira Padmalayam and Mark J. Suto, 3D Cell Cultures, Annual Reports in Medicinal Chemistry Volume 47, 10.1016/B978-0-12-396492-2.00024-2, (367-378), (2012).
  Crossref
• Vincent Chan, Mitchell B. Collens, Jae Hyun Jeong, Kidong Park, Hyunjoon Kong and Rashid Bashir, Directed cell growth and alignment on protein-patterned 3D hydrogels with stereolithography, Virtual and Physical Prototyping, 10.1080/17452759.2012.709423, 7, 3, (219-228), (2012).
  Crossref
• Aleksandr Ovsianikov, Vladimir Mironov, Jürgen Stampfl and Robert Liska, Engineering 3D cell-culture matrices: multiphoton processing technologies for biological and tissue engineering applications, Expert Review of Medical Devices, 10.1586/erd.12.48, 9, 6, (613-633), (2014).
  Crossref
• Junfeng Shi, Yue Pan, Yuan Gao and Bing Xu, Evaluation of the effects of phenylalanine and carboxylate on the rheological behaviors of small molecule hydrogelators containing naphthalene, MRS Proceedings, 1418, (2012).
  Crossref
• Dan Cheng, Yuhan Wu, Ying Guan and Yongjun Zhang, Tuning properties of injectable hydrogel scaffold by PEG blending, Polymer, 10.1016/j.polymer.2012.08.054, 53, 22, (5124-5131), (2012).
  Crossref
• Randall E. McClelland, Robert Dennis, Lola M. Reid, Jan P. Stegemann, Bernard Palsson and Jeffrey M. Macdonald, Tissue Engineering, Introduction to Biomedical Engineering, 10.1016/B978-0-12-374979-6.00006-X, (273-357), (2012).
  Crossref
• Francesca Ercole, Helmut Thissen, Kelly Tsang, Richard A. Evans and John S. Forsythe, Photodegradable Hydrogels Made via RAFT, Macromolecules, 10.1021/ma301315q, 45, 20, (8387-8400), (2012).
  Crossref
• Shivaprasad Manchineella and T. Govindaraju, Hydrogen bond directed self-assembly of cyclic dipeptide derivatives: gelation and ordered hierarchical architectures, RSC Advances, 10.1039/c2ra20342a, 2, 13, (5539), (2012).
  Crossref
• Hyesun Lee, Bo Gyu Choi, Hyo Jung Moon, Jiyeon Choi, Kwideok Park, Byeongmoon Jeong and Dong Keun Han, Chondrocyte 3D-culture in RGD-modified crosslinked hydrogel with temperature-controllable modulus, Macromolecular Research, 20, 1, (106), (2012).
  Crossref
• Joshua D. McCall, Jacob E. Luoma and Kristi S. Anseth, Covalently tethered transforming growth factor beta in PEG hydrogels promotes chondrogenic differentiation of encapsulated human mesenchymal stem cells, Drug Delivery and Translational Research, 2, 5, (305), (2012).
  Crossref
• Edorta Santos, Rosa M. Hernández, José Luis Pedraz and Gorka Orive, Novel advances in the design of three-dimensional bio-scaffolds to control cell fate: translation from 2D to 3D, Trends in Biotechnology, 10.1016/j.tibtech.2012.03.005, 30, 6, (331-341), (2012).
  Crossref
• Chandra M. Valmikinathan, Vivek J. Mukhatyar, Anjana Jain, Lohitash Karumbaiah, Madhuri Dasari and Ravi V. Bellamkonda, Photocrosslinkable chitosan based hydrogels for neural tissue engineering, Soft Matter, 10.1039/C1SM06629C, 8, 6, (1964-1976), (2012).
  Crossref
• Jong-ryul Choi and Donghyun Kim, Enhanced image reconstruction of three-dimensional fluorescent assays by subtractive structured-light illumination microscopy, Journal of the Optical Society of America A, 10.1364/JOSAA.29.002165, 29, 10, (2165), (2012).
  Crossref
• Faramarz Edalat, Iris Sheu, Sam Manoucheri and Ali Khademhosseini, Material strategies for creating artificial cell-instructive niches, Current Opinion in Biotechnology, 10.1016/j.copbio.2012.05.007, 23, 5, (820-825), (2012).
  Crossref
• Jung Seung Lee and Seung-Woo Cho, Liver tissue engineering: Recent advances in the development of a bio-artificial liver, Biotechnology and Bioprocess Engineering, 10.1007/s12257-012-0047-9, 17, 3, (427-438), (2012).
  Crossref
• Michele M. Nava, Manuela T. Raimondi and Riccardo Pietrabissa, Controlling Self-Renewal and Differentiation of Stem Cells via Mechanical Cues, Journal of Biomedicine and Biotechnology, 10.1155/2012/797410, 2012, (1-12), (2012).
  Crossref
• Dhaval Patel, Susan E. Vandromme, Michael E. Reid and Lakeshia J. Taite, Synergistic Activity of αvβ3 Integrins and the Elastin Binding Protein Enhance Cell-Matrix Interactions on Bioactive Hydrogel Surfaces, Biomacromolecules, 13, 5, (1420), (2012).
  Crossref
• M Handel, T R Hammer and D Hoefer, Adipogenic differentiation of scaffold-bound human adipose tissue-derived stem cells (hASC) for soft tissue engineering, Biomedical Materials, 10.1088/1748-6041/7/5/054107, 7, 5, (054107), (2012).
  Crossref
• Madhushree Bhattacharya, Melina M. Malinen, Patrick Lauren, Yan-Ru Lou, Saara W. Kuisma, Liisa Kanninen, Martina Lille, Anne Corlu, Christiane GuGuen-Guillouzo, Olli Ikkala, Antti Laukkanen, Arto Urtti and Marjo Yliperttula, Nanofibrillar cellulose hydrogel promotes three-dimensional liver cell culture, Journal of Controlled Release, 164, 3, (291), (2012).
  Crossref
• Yao Fu, Kedi Xu, Xiaoxiang Zheng, Alan J. Giacomin, Adam W. Mix and Weiyuan J. Kao, 3D cell entrapment in crosslinked thiolated gelatin-poly(ethylene glycol) diacrylate hydrogels, Biomaterials, 10.1016/j.biomaterials.2011.09.031, 33, 1, (48-58), (2012).
  Crossref
• Brian F. Lin, Katie A. Megley, Nickesh Viswanathan, Daniel V. Krogstad, Laurie B. Drews, Matthew J. Kade, Yichun Qian and Matthew V. Tirrell, pH-responsive branched peptide amphiphile hydrogel designed for applications in regenerative medicine with potential as injectable tissue scaffolds, Journal of Materials Chemistry, 22, 37, (19447), (2012).
  Crossref
• Jana Becher, Stephanie Möller, Thomas Riemer, Jürgen Schiller, Vera Hintze, Susanne Bierbaum, Dieter Scharnweber, Hartmut Worch and Matthias Schnabelrauch, Sulfated Glycosaminoglycan Building Blocks for the Design of Artificial Extracellular Matrices, Functional Materials from Renewable Sources, 10.1021/bk-2012-1107.ch017, (315-328), (2012).
  Crossref
• Cole A. DeForest and Kristi S. Anseth, Advances in Bioactive Hydrogels to Probe and Direct Cell Fate, Annual Review of Chemical and Biomolecular Engineering, 10.1146/annurev-chembioeng-062011-080945, 3, 1, (421-444), (2012).
  Crossref
• Franck J. Vernerey, Eric C. Greenwald and Stephanie J. Bryant, Triphasic mixture model of cell-mediated enzymatic degradation of hydrogels, Computer Methods in Biomechanics and Biomedical Engineering, 15, 11, (1197), (2012).
  Crossref
• Lynn Huyck, Christophe Ampe and Marleen Van Troys, The XTT Cell Proliferation Assay Applied to Cell Layers Embedded in Three-Dimensional Matrix, ASSAY and Drug Development Technologies, 10, 4, (382), (2012).
  Crossref
• Stephanie Bryant, Cell Encapsulation, Tissue Engineering, 10.1201/b13978-23, (1-18), (2013).
  Crossref
• Melissa McHale and Jennifer West, Biofunctional Hydrogels, Biomaterials, 10.1201/b13687-9, (8-1-8-14), (2013).
  Crossref
• Yuji Yamada, Kentaro Hozumi, Akihiro Aso, Atsushi Hotta, Kazunori Toma, Fumihiko Katagiri, Yamato Kikkawa and Motoyoshi Nomizu, Laminin active peptide/agarose matrices as multifunctional biomaterials for tissue engineering, Biomaterials, 10.1016/j.biomaterials.2012.02.044, 33, 16, (4118-4125), (2012).
  Crossref
• Mohammed Alghoul, Amanda Mendiola, Rahul Seth, Brian P. Rubin, James E. Zins, Anthony Calabro, Maria Siemionow and Shashidhar Kusuma, The Effect of Hyaluronan Hydrogel on Fat Graft Survival, Aesthetic Surgery Journal, 10.1177/1090820X12448794, 32, 5, (622-633), (2012).
  Crossref
• Jordan Raphel, Andreina Parisi-Amon and Sarah C. Heilshorn, Photoreactive elastin-like proteins for use as versatile bioactive materials and surface coatings, Journal of Materials Chemistry, 22, 37, (19429), (2012).
  Crossref
• Syed Izhar Haider Abdi, Jeong Yeon Choi, Ji Seon Lee, Hyun Ju Lim, Changho Lee, Jeehyun Kim, Ho Yun Chung and Jeong Ok Lim, In Vivo study of a blended hydrogel composed of pluronic F-127-alginate-hyaluronic acid for its cell injection application, Tissue Engineering and Regenerative Medicine, 9, 1, (1), (2012).
  Crossref
• Petra B. Welzel, Milauscha Grimmer, Claudia Renneberg, Lisa Naujox, Stefan Zschoche, Uwe Freudenberg and Carsten Werner, Macroporous StarPEG-Heparin Cryogels, Biomacromolecules, 10.1021/bm300605s, 13, 8, (2349-2358), (2012).
  Crossref
• Matthew T. Wolf, Kerry A. Daly, Ellen P. Brennan-Pierce, Scott A. Johnson, Christopher A. Carruthers, Antonio D'Amore, Shailesh P. Nagarkar, Sachin S. Velankar and Stephen F. Badylak, A hydrogel derived from decellularized dermal extracellular matrix, Biomaterials, 33, 29, (7028), (2012).
  Crossref
• Su Ryon Shin, Hojae Bae, Jae Min Cha, Ji Young Mun, Ying-Chieh Chen, Halil Tekin, Hyeongho Shin, Saeed Farshchi, Mehmet R. Dokmeci, Shirley Tang and Ali Khademhosseini, Carbon Nanotube Reinforced Hybrid Microgels as Scaffold Materials for Cell Encapsulation, ACS Nano, 10.1021/nn203711s, 6, 1, (362-372), (2011).
  Crossref
• Xiaohua Geng, Xiumei Mo, Linpeng Fan, Anlin Yin and Jun Fang, Hierarchically designed injectable hydrogel from oxidized dextran, amino gelatin and 4-arm poly(ethylene glycol)-acrylate for tissue engineering application, Journal of Materials Chemistry, 10.1039/c2jm34737g, 22, 48, (25130), (2012).
  Crossref
• Angela Casini, Exploring the mechanisms of metal­based pharmacological agents via an integrated approach, Journal of Inorganic Biochemistry, 10.1016/j.jinorgbio.2011.12.007, 109, (97-106), (2012).
  Crossref
• Felicity de Cogan, Andrew Booth, Julie E. Gough and Simon J. Webb, Conversion of Magnetic Impulses into Cellular Responses by Self‐Assembled Nanoparticle–Vesicle Hydrogels, Angewandte Chemie, 123, 51, (12498-12501), (2011).
  Wiley Online Library
• Thomas Weiß, Ronald Schade, Thorsten Laube, Albrecht Berg, Gerhard Hildebrand, Ralf Wyrwa, Matthias Schnabelrauch and Klaus Liefeith, Two‐Photon Polymerization of Biocompatible Photopolymers for Microstructured 3D Biointerfaces, Advanced Engineering Materials, 13, 9, (B264-B273), (2011).
  Wiley Online Library
• Saraswathy Manju, Chirathodi Vayalappil Muraleedharan, Adathala Rajeev, Attipettah Jayakrishnan and Roy Joseph, Evaluation of alginate dialdehyde cross‐linked gelatin hydrogel as a biodegradable sealant for polyester vascular graft, Journal of Biomedical Materials Research Part B: Applied Biomaterials, 98B, 1, (139-149), (2011).
  Wiley Online Library
• Muhammad Gulfam, Jong Min Lee and Bong Geun Chung, Two‐phase bioreactor system for cell‐laden hydrogel assembly, Biotechnology Progress, 27, 2, (466-472), (2011).
  Wiley Online Library
• Felicity de Cogan, Andrew Booth, Julie E. Gough and Simon J. Webb, Conversion of Magnetic Impulses into Cellular Responses by Self‐Assembled Nanoparticle–Vesicle Hydrogels, Angewandte Chemie International Edition, 50, 51, (12290-12293), (2011).
  Wiley Online Library
• Eric H. Nguyen, Michael P. Schwartz and William L. Murphy, Biomimetic Approaches to Control Soluble Concentration Gradients in Biomaterials, Macromolecular Bioscience, 11, 4, (483-492), (2011).
  Wiley Online Library
• Mar Diez, Vera A. Schulte, Filippo Stefanoni, Carlo F. Natale, Francesco Mollica, Claudia M. Cesa, Jingyu Chen, Martin Möller, Paolo A. Netti, Maurizio Ventre and Marga C. Lensen, Molding Micropatterns of Elasticity on PEG‐Based Hydrogels to Control Cell Adhesion and Migration, Advanced Engineering Materials, 13, 10, (B395-B404), (2011).
  Wiley Online Library
• Gregory A. Hudalla and William L. Murphy, Biomaterials that Regulate Growth Factor Activity via Bioinspired Interactions, Advanced Functional Materials, 21, 10, (1754-1768), (2011).
  Wiley Online Library
• Warren Ty Truong, Yingying Su, Joris T. Meijer, Pall Thordarson and Filip Braet, Self‐Assembled Gels for Biomedical Applications, Chemistry – An Asian Journal, 6, 1, (30-42), (2010).
  Wiley Online Library
• Maren Drewitz, Marianne Helbling, Nicole Fried, Manuela Bieri, Wolfgang Moritz, Jan Lichtenberg and Jens M. Kelm, Towards automated production and drug sensitivity testing using scaffold‐free spherical tumor microtissues, Biotechnology Journal, 6, 12, (1488-1496), (2011).
  Wiley Online Library
• Yuexin Yu, Chao Deng, Fenghua Meng, Qin Shi, Jan Feijen and Zhiyuan Zhong, Novel injectable biodegradable glycol chitosan‐based hydrogels crosslinked by Michael‐type addition reaction with oligo(acryloyl carbonate)‐b‐poly(ethylene glycol)‐b‐oligo(acryloyl carbonate) copolymers, Journal of Biomedical Materials Research Part A, 99A, 2, (316-326), (2011).
  Wiley Online Library
• Ranjna C Dutta, In search of optimal scaffold for regenerative medicine and therapeutic delivery, Therapeutic Delivery, 2, 2, (231), (2011).
  Crossref
• Zuwei Ma, Yi Hong, Devin M. Nelson, Joseph E. Pichamuthu, Cory E. Leeson and William R. Wagner, Biodegradable Polyurethane Ureas with Variable Polyester or Polycarbonate Soft Segments: Effects of Crystallinity, Molecular Weight, and Composition on Mechanical Properties, Biomacromolecules, 10.1021/bm2007218, 12, 9, (3265-3274), (2011).
  Crossref
• Brian Holt, Anubhav Tripathi and Jeffrey R. Morgan, Designing polyHEMA substrates that mimic the viscoelastic response of soft tissue, Journal of Biomechanics, 10.1016/j.jbiomech.2011.03.007, 44, 8, (1491-1498), (2011).
  Crossref
• A.H. Zisch and M. Ehrbar, Cell-Demanded Release of Growth Factors, Comprehensive Biomaterials, 10.1016/B978-0-08-055294-1.00152-5, (463-473), (2011).
  Crossref
• Maxwell A. Kotlarchyk, Samir G. Shreim, Martha B. Alvarez-Elizondo, Laura C. Estrada, Rahul Singh, Lorenzo Valdevit, Ekaterina Kniazeva, Enrico Gratton, Andrew J. Putnam, Elliot L. Botvinick and Christophe Egles, Concentration Independent Modulation of Local Micromechanics in a Fibrin Gel, PLoS ONE, 6, 5, (e20201), (2011).
  Crossref
• Iris L. Kim, Robert L. Mauck and Jason A. Burdick, Hydrogel design for cartilage tissue engineering: A case study with hyaluronic acid, Biomaterials, 10.1016/j.biomaterials.2011.08.073, 32, 34, (8771-8782), (2011).
  Crossref
• Alpesh Patel and Kibret Mequanint, Synthesis and characterization of polyurethane- block -poly(2-hydroxyethyl methacrylate) hydrogels and their surface modification to promote cell affinity , Journal of Bioactive and Compatible Polymers, 10.1177/0883911511398713, 26, 2, (114-129), (2011).
  Crossref
• Jan Demol, Dennis Lambrechts, Liesbet Geris, Jan Schrooten and Hans Van Oosterwyck, Towards a quantitative understanding of oxygen tension and cell density evolution in fibrin hydrogels, Biomaterials, 10.1016/j.biomaterials.2010.08.093, 32, 1, (107-118), (2011).
  Crossref
• S. Willerth and D. Schaffer, Scaffold Materials for hES Cell Culture and Differentiation, Comprehensive Biomaterials, 10.1016/B978-0-08-055294-1.00162-8, (95-113), (2011).
  Crossref
• Thomas P Kraehenbuehl, Robert Langer and Lino S Ferreira, Three-dimensional biomaterials for the study of human pluripotent stem cells, Nature Methods, 8, 9, (731), (2011).
  Crossref
• Zhaoyang Ye, Yan Zhou, Haibo Cai and Wensong Tan, Myocardial regeneration: Roles of stem cells and hydrogels, Advanced Drug Delivery Reviews, 10.1016/j.addr.2011.02.007, 63, 8, (688-697), (2011).
  Crossref
• H.M. Waldeck and W.J. Kao, Extracellular Matrix: Inspired Biomaterials, Comprehensive Biomaterials, 10.1016/B978-0-08-055294-1.00065-9, (113-126), (2011).
  Crossref
• Ana Sala, Patrick Hänseler, Adrian Ranga, Matthias P. Lutolf, Janos Vörös, Martin Ehrbar and Franz E. Weber, Engineering 3D cell instructive microenvironments by rational assembly of artificial extracellular matrices and cell patterning, Integrative Biology, 3, 11, (1102), (2011).
  Crossref
• Yu. P. Petrov and Yu. A. Negulyaev, Average cell size is a factor reflecting the interaction of CHO cells during their proliferation, Cell and Tissue Biology, 5, 6, (595), (2011).
  Crossref
• Sarah B. Anderson, Chien-Chi Lin, Donna V. Kuntzler and Kristi S. Anseth, The performance of human mesenchymal stem cells encapsulated in cell-degradable polymer-peptide hydrogels, Biomaterials, 10.1016/j.biomaterials.2011.01.064, 32, 14, (3564-3574), (2011).
  Crossref
• Antonella Bandiera, Transglutaminase-catalyzed preparation of human elastin-like polypeptide-based three-dimensional matrices for cell encapsulation, Enzyme and Microbial Technology, 49, 4, (347), (2011).
  Crossref
• Che B. Hutson, Jason W. Nichol, Hug Aubin, Hojae Bae, Seda Yamanlar, Shahed Al-Haque, Sandeep T. Koshy and Ali Khademhosseini, Synthesis and Characterization of Tunable Poly(Ethylene Glycol): Gelatin Methacrylate Composite Hydrogels, Tissue Engineering Part A, 17, 13-14, (1713), (2011).
  Crossref
• Jae-Hyung Jang, David V Schaffer and Lonnie D Shea, Engineering Biomaterial Systems to Enhance Viral Vector Gene Delivery, Molecular Therapy, 10.1038/mt.2011.111, 19, 8, (1407-1415), (2011).
  Crossref
• M. Ehrbar, A. Sala, P. Lienemann, A. Ranga, K. Mosiewicz, A. Bittermann, S.C. Rizzi, F.E. Weber and M.P. Lutolf, Elucidating the Role of Matrix Stiffness in 3D Cell Migration and Remodeling, Biophysical Journal, 100, 2, (284), (2011).
  Crossref
• Larisa C. Wu, Jiyuan Yang and Jindřich Kopeček, Hybrid hydrogels self-assembled from graft copolymers containing complementary β-sheets as hydroxyapatite nucleation scaffolds, Biomaterials, 32, 23, (5341), (2011).
  Crossref
• Jonathan M. Zuidema, Matthew M. Pap, David B. Jaroch, Faith A. Morrison and Ryan J. Gilbert, Fabrication and characterization of tunable polysaccharide hydrogel blends for neural repair, Acta Biomaterialia, 10.1016/j.actbio.2010.11.039, 7, 4, (1634-1643), (2011).
  Crossref
• Umut A. Gurkan, Vipuil Kishore, Keith W. Condon, Teresita M. Bellido and Ozan Akkus, A Scaffold-Free Multicellular Three-Dimensional In Vitro Model of Osteogenesis, Calcified Tissue International, 10.1007/s00223-011-9467-3, 88, 5, (388-401), (2011).
  Crossref
• Elizabeth F. Irwin, Jacob F. Pollock, David V. Schaffer and Kevin E. Healy, Designing Tunable Artificial Matrices for Stem Cell Culture, Principles of Regenerative Medicine, 10.1016/B978-0-12-381422-7.10039-2, (717-728), (2011).
  Crossref
• Feng Xu, JinHui Wu, ShuQi Wang, Naside Gozde Durmus, Umut Atakan Gurkan and Utkan Demirci, Microengineering methods for cell-based microarrays and high-throughput drug-screening applications, Biofabrication, 3, 3, (034101), (2011).
  Crossref
• Ryan G. Wylie and Molly S. Shoichet, Three-Dimensional Spatial Patterning of Proteins in Hydrogels, Biomacromolecules, 10.1021/bm201037j, 12, 10, (3789-3796), (2011).
  Crossref
• Junmin Zhu and Roger E Marchant, Design properties of hydrogel tissue-engineering scaffolds, Expert Review of Medical Devices, 10.1586/erd.11.27, 8, 5, (607-626), (2014).
  Crossref
• Kyung Min Park, Indong Jun, Yoon Ki Joung, Heungsoo Shin and Ki Dong Park, In situ hydrogelation and RGDconjugation of tyramine-conjugated 4-arm PPO–PEOblock copolymer for injectable bio-mimetic scaffolds, Soft Matter, 7, 3, (986), (2011).
  Crossref
• J. Patterson and J.A. Hubbell, SPARC-derived protease substrates to enhance the plasmin sensitivity of molecularly engineered PEG hydrogels, Biomaterials, 32, 5, (1301), (2011).
  Crossref
• Shuko Suzuki and Yoshito Ikada, Adhesion of Cells and Tissues to Bioabsorbable Polymeric Materials, Surface and Interfacial Aspects of Cell Adhesion, 10.1201/b12179-29, (473-491), (2013).
  Crossref
• Keila B. Fonseca, Sílvia J. Bidarra, Maria J. Oliveira, Pedro L. Granja and Cristina C. Barrias, Molecularly designed alginate hydrogels susceptible to local proteolysis as three-dimensional cellular microenvironments, Acta Biomaterialia, 7, 4, (1674), (2011).
  Crossref
• Maren Drewitz, Daniel Caminada, Wolfgang Moritz, Jan Lichtenberg, Cornelia Kasper and Jens M. Kelm, Verfahren zur automatisierten Tropfenbildung für die Massenproduktion von organotypischen MikrogewebenNovel Production Technology to Automate the Generation of Hanging Drops for Mass Production of Organotypic Microtissues, Chemie Ingenieur Technik, 83, 12, (2170-2176), (2011).
  Wiley Online Library
• Natalia Nieto and Matthias P. Lutolf, Extracellular matrix bioengineering and systems biology approaches in liver disease, Systems and Synthetic Biology, 5, 1-2, (11), (2011).
  Crossref
• Shelley S. Mason, Sean S. Kohles, Randy D. Zelick, Shelley R. Winn and Asit K. Saha, Three-Dimensional Culture of Cells and Matrix Biomolecules for Engineered Tissue Development and Biokinetics Model Validation, Journal of Nanotechnology in Engineering and Medicine, 10.1115/1.4003878, 2, 2, (025001), (2011).
  Crossref
• Chien-Chi Lin, Asad Raza and Han Shih, PEG hydrogels formed by thiol-ene photo-click chemistry and their effect on the formation and recovery of insulin-secreting cell spheroids, Biomaterials, 10.1016/j.biomaterials.2011.08.083, 32, 36, (9685-9695), (2011).
  Crossref
• Yi Cheng, Xiaolong Luo, Chen-Yu Tsao, Hsuan-Chen Wu, Jordan Betz, Gregory F. Payne, William E. Bentley and Gary W. Rubloff, Biocompatible multi-address 3D cell assembly in microfluidic devices using spatially programmable gel formation, Lab on a Chip, 11, 14, (2316), (2011).
  Crossref
• S.E. Holton, M.J. Walsh, A. Kajdacsy-Balla and R. Bhargava, Label-Free Characterization of Cancer-Activated Fibroblasts Using Infrared Spectroscopic Imaging, Biophysical Journal, 10.1016/j.bpj.2011.07.055, 101, 6, (1513-1521), (2011).
  Crossref
• Lei Tian and Steven C. George, Biomaterials to Prevascularize Engineered Tissues, Journal of Cardiovascular Translational Research, 10.1007/s12265-011-9301-3, 4, 5, (685-698), (2011).
  Crossref
• Sudhir Khetan and Jason A. Burdick, Patterning hydrogels in three dimensions towards controlling cellular interactions, Soft Matter, 7, 3, (830), (2011).
  Crossref
• Brigitte Altmann, Thorsten Steinberg, Stefan Giselbrecht, Eric Gottwald, Pascal Tomakidi, Maria Bächle-Haas and Ralf-Joachim Kohal, Promotion of osteoblast differentiation in 3D biomaterial micro-chip arrays comprising fibronectin-coated poly(methyl methacrylate) polycarbonate, Biomaterials, 10.1016/j.biomaterials.2011.08.023, 32, 34, (8947-8956), (2011).
  Crossref
• Christian Franck, Stacey A. Maskarinec, David A. Tirrell, Guruswami Ravichandran and Igor Sokolov, Three-Dimensional Traction Force Microscopy: A New Tool for Quantifying Cell-Matrix Interactions, PLoS ONE, 6, 3, (e17833), (2011).
  Crossref
• Lena Möller, Andreas Krause, Julia Dahlmann, Ina Gruh, Andreas Kirschning and Gerald Dräger, Preparation and Evaluation of Hydrogel-Composites from Methacrylated Hyaluronic Acid, Alginate, and Gelatin for Tissue Engineering, The International Journal of Artificial Organs, 34, 2, (93), (2011).
  Crossref
• Chaenyung Cha, Jae Hyun Jeong, Jongwon Shim and Hyunjoon Kong, Tuning the dependency between stiffness and permeability of a cell encapsulating hydrogel with hydrophilic pendant chains, Acta Biomaterialia, 10.1016/j.actbio.2011.06.017, 7, 10, (3719-3728), (2011).
  Crossref
• Martín F. Desimone, Christophe Hélary, Sandrine Quignard, Ivo B. Rietveld, Isabelle Bataille, Guillermo J. Copello, Gervaise Mosser, Marie-Madeleine Giraud-Guille, Jacques Livage, Anne Meddahi-Pellé and Thibaud Coradin, In vitro Studies and Preliminary In vivo Evaluation of Silicified Concentrated Collagen Hydrogels, ACS Applied Materials & Interfaces, 10.1021/am2009844, 3, 10, (3831-3838), (2011).
  Crossref
• A. A. Chen, D. K. Thomas, L. L. Ong, R. E. Schwartz, T. R. Golub and S. N. Bhatia, Humanized mice with ectopic artificial liver tissues, Proceedings of the National Academy of Sciences, 108, 29, (11842), (2011).
  Crossref
• Abigail Pulsipher and Muhammad N. Yousaf, Surface Chemistry and Cell Biological Tools for the Analysis of Cell Adhesion and Migration, ChemBioChem, 11, 6, (745-753), (2010).
  Wiley Online Library
• Shawn C. Owen and Molly S. Shoichet, Design of three‐dimensional biomimetic scaffolds, Journal of Biomedical Materials Research Part A, 94A, 4, (1321-1331), (2010).
  Wiley Online Library
• Shuko Suzuki and Yoshito Ikada, Adhesion of Cells and Tissues to Bioabsorbable Polymeric Materials: Scaffolds, Surgical Tissue Adhesives and Anti-adhesive Materials, Journal of Adhesion Science and Technology, 24, 13-14, (2059), (2010).
  Crossref
• J.A. Werkmeister, R. Adhikari, J.F. White, T.A. Tebb, T.P.T. Le, H.C. Taing, R. Mayadunne, P.A. Gunatillake, S.J. Danon and J.A.M. Ramshaw, Biodegradable and injectable cure-on-demand polyurethane scaffolds for regeneration of articular cartilage, Acta Biomaterialia, 6, 9, (3471), (2010).
  Crossref
• Mark W. Tibbitt, April M. Kloxin, Kiran U. Dyamenahalli and Kristi S. Anseth, Controlled two-photon photodegradation of PEG hydrogels to study and manipulate subcellular interactions on soft materials, Soft Matter, 6, 20, (5100), (2010).
  Crossref
• Junmin Zhu, Bioactive modification of poly(ethylene glycol) hydrogels for tissue engineering, Biomaterials, 10.1016/j.biomaterials.2010.02.044, 31, 17, (4639-4656), (2010).
  Crossref
• Hikmet Geckil, Feng Xu, Xiaohui Zhang, SangJun Moon and Utkan Demirci, Engineering hydrogels as extracellular matrix mimics, Nanomedicine, 10.2217/nnm.10.12, 5, 3, (469-484), (2010).
  Crossref
• Jennifer Patterson, Mikaël M. Martino and Jeffrey A. Hubbell, Biomimetic materials in tissue engineering, Materials Today, 10.1016/S1369-7021(10)70013-4, 13, 1-2, (14-22), (2010).
  Crossref
• Andrea M Kasko and Darice Y Wong, Two-photon lithography in the future of cell-based therapeutics and regenerative medicine: a review of techniques for hydrogel patterning and controlled release, Future Medicinal Chemistry, 2, 11, (1669), (2010).
  Crossref
• April M Kloxin, Mark W Tibbitt and Kristi S Anseth, Synthesis of photodegradable hydrogels as dynamically tunable cell culture platforms, Nature Protocols, 5, 12, (1867), (2010).
  Crossref
• Amulya K. Saxena, Tissue engineering and regenerative medicine research perspectives for pediatric surgery, Pediatric Surgery International, 26, 6, (557), (2010).
  Crossref
• Bo Gyu Choi, Min Hee Park, So-Hye Cho, Min Kyung Joo, Hye Jin Oh, Eun Hye Kim, Kwideok Park, Dong Keun Han and Byeongmoon Jeong, In situ thermal gelling polypeptide for chondrocytes 3D culture, Biomaterials, 31, 35, (9266), (2010).
  Crossref
• Nico Scharnagl, Seahyoung Lee, Bernhard Hiebl, Adam Sisson and Andreas Lendlein, Design principles for polymers as substratum for adherent cells, Journal of Materials Chemistry, 10.1039/c0jm00997k, 20, 40, (8789), (2010).
  Crossref
• Jordan S. Miller, Colette J. Shen, Wesley R. Legant, Jan D. Baranski, Brandon L. Blakely and Christopher S. Chen, Bioactive hydrogels made from step-growth derived PEG–peptide macromers, Biomaterials, 31, 13, (3736), (2010).
  Crossref
• J. Patterson and J.A. Hubbell, Enhanced proteolytic degradation of molecularly engineered PEG hydrogels in response to MMP-1 and MMP-2, Biomaterials, 31, 30, (7836), (2010).
  Crossref
• J. Sohier, P. Corre, P. Weiss and P. Layrolle, Hydrogel/calcium phosphate composites require specific properties for three-dimensional culture of human bone mesenchymal cells, Acta Biomaterialia, 6, 8, (2932), (2010).
  Crossref
• Jinghuan Huang and Jiandong Ding, Nanostructured interfaces with RGD arrays to control cell–matrix interaction, Soft Matter, 10.1039/b927168f, 6, 15, (3395), (2010).
  Crossref
• Donald O. Freytes, Leo Q. Wan and Gordana Vunjak‐Novakovic, Geometry and force control of cell function, Journal of Cellular Biochemistry, 108, 5, (1047-1058), (2009).
  Wiley Online Library
• Brigitte Altmann, The famous versus the inconvenient - or the dawn and the rise of 3D-culture systems , World Journal of Stem Cells, 10.4252/wjsc.v1.i1.43, 1, 1, (43), (2009).
  Crossref
• Atena Golabdar, Hossein Adelnia, Nooshafarin Moshtzan, Jaber Nasrollah Gavgani and Hossein Izadi‐Vasafi, Anti‐bacterial poly(vinyl alcohol) nanocomposite hydrogels reinforced with in situ synthesized silver nanoparticles, Polymer Composites, , (2018).
  Wiley Online Library
• Ni Tang, Zhan Peng, Rulei Guo, Meng An, Xiandong Chen, Xiaobo Li, Nuo Yang and Jianfeng Zang, Thermal Transport in Soft PAAm Hydrogels, Polymers, 10.3390/polym9120688, 9, 12, (688), (2017).
  Crossref
• Giorgio Mattei, Ludovica Cacopardo and Arti Ahluwalia, Micro-Mechanical Viscoelastic Properties of Crosslinked Hydrogels Using the Nano-Epsilon Dot Method, Materials, 10.3390/ma10080889, 10, 8, (889), (2017).
  Crossref
• David Gothard, Emma L. Smith, Janos M. Kanczler, Cameron R. Black, Julia A. Wells, Carol A. Roberts, Lisa J. White, Omar Qutachi, Heather Peto, Hassan Rashidi, Luis Rojo, Molly M. Stevens, Alicia J. El Haj, Felicity R. A. J. Rose, Kevin M. Shakesheff, Richard O. C. Oreffo and Adam J. Engler, In Vivo Assessment of Bone Regeneration in Alginate/Bone ECM Hydrogels with Incorporated Skeletal Stem Cells and Single Growth Factors, PLOS ONE, 10.1371/journal.pone.0145080, 10, 12, (e0145080), (2015).
  Crossref
• Clara Grosso, Patrícia Valentão, Federico Ferreres and Paula Andrade, Bioactive Marine Drugs and Marine Biomaterials for Brain Diseases, Marine Drugs, 10.3390/md12052539, 12, 5, (2539-2589), (2014).
  Crossref
• Elise DeSimone, Kristin Schacht, Alexandra Pellert and Thomas Scheibel, Recombinant spider silk-based bioinks, Biofabrication, 10.1088/1758-5090/aa90db, 9, 4, (044104), (2017).
  Crossref
• Myeong Ok Cho, Zhengzheng Li, Hye-Eun Shim, Ik-Sung Cho, Md Nurunnabi, Honghyun Park, Kuen Yong Lee, Sung-Hwan Moon, Ki-Suk Kim, Sun-Woong Kang and Kang Moo Huh, Bioinspired tuning of glycol chitosan for 3D cell culture, NPG Asia Materials, 10.1038/am.2016.130, 8, 9, (e309), (2016).
  Crossref
• Rasheena Edmondson, Audrey F. Adcock, Liju Yang and Lucia R. Languino, Influence of Matrices on 3D-Cultured Prostate Cancer Cells' Drug Response and Expression of Drug-Action Associated Proteins, PLOS ONE, 10.1371/journal.pone.0158116, 11, 6, (e0158116), (2016).
  Crossref
• Petra Birgit Welzel, Silvana Prokoph, Andrea Zieris, Milauscha Grimmer, Stefan Zschoche, Uwe Freudenberg and Carsten Werner, Modulating Biofunctional starPEG Heparin Hydrogels by Varying Size and Ratio of the Constituents, Polymers, 10.3390/polym3010602, 3, 4, (602-620), (2011).
  Crossref
• Carmen González-Henríquez, Mauricio Sarabia-Vallejos and Juan Rodriguez-Hernandez, Advances in the Fabrication of Antimicrobial Hydrogels for Biomedical Applications, Materials, 10.3390/ma10030232, 10, 3, (232), (2017).
  Crossref
• Giovanni Ugolini, Daniela Cruz-Moreira, Roberta Visone, Alberto Redaelli and Marco Rasponi, Microfabricated Physiological Models for In Vitro Drug Screening Applications, Micromachines, 10.3390/mi7120233, 7, 12, (233), (2016).
  Crossref
• Lin Wang, Yuhui Li, Guoyou Huang, Xiaohui Zhang, Belinda Pingguan-Murphy, Bin Gao, Tian Jian Lu and Feng Xu, Hydrogel-based methods for engineering cellular microenvironment with spatiotemporal gradients, Critical Reviews in Biotechnology, 10.3109/07388551.2014.993588, (1-13), (2015).
  Crossref
• Kevin M. Tharp and Andreas Stahl, Bioengineering Beige Adipose Tissue Therapeutics, Frontiers in Endocrinology, 10.3389/fendo.2015.00164, 6, (2015).
  Crossref
• Ye Fang and Richard M. Eglen, Three-Dimensional Cell Cultures in Drug Discovery and Development, SLAS DISCOVERY: Advancing Life Sciences R&D, 10.1177/2472555217696795, (247255521769679), (2017).
  Crossref
• Zongjie Wang, Zhenlin Tian, Fredric Menard and Keekyoung Kim, Comparative study of gelatin methacrylate hydrogels from different sources for biofabrication applications, Biofabrication, 10.1088/1758-5090/aa83cf, 9, 4, (044101), (2017).
  Crossref
• Roberto Paoli and Josep Samitier, Mimicking the Kidney: A Key Role in Organ-on-Chip Development, Micromachines, 10.3390/mi7070126, 7, 7, (126), (2016).
  Crossref
• Hsiao-Ting Hsu, Lih-Rou Rau, Yao-Nan Zeng, Yi-Lin Kang, Shiao-Wen Tsai and Min-Hsien Wu, External vibration enhances macromolecular crowding for construction of aligned three-dimensional collagen fibril scaffolds, Biofabrication, 10.1088/1758-5090/7/2/025004, 7, 2, (025004), (2015).
  Crossref
• Steven R Caliari and Jason A Burdick, A practical guide to hydrogels for cell culture, Nature Methods, 10.1038/nmeth.3839, 13, 5, (405-414), (2016).
  Crossref
• Wenfeng Wan, Gaole Dai, Lijun Zhang and Yajing Shen, Paper-Based Electrodeposition Chip for 3D Alginate Hydrogel Formation, Micromachines, 10.3390/mi6101438, 6, 10, (1546-1559), (2015).
  Crossref
• Qudus Hamid, Chengyang Wang, Yu Zhao, Jessica Snyder and Wei Sun, A three-dimensional cell-laden microfluidic chip for in vitro drug metabolism detection , Biofabrication, 10.1088/1758-5082/6/2/025008, 6, 2, (025008), (2014).
  Crossref
• Chelsea M Magin, Daniel L Alge and Kristi S Anseth, Bio-inspired 3D microenvironments: a new dimension in tissue engineering, Biomedical Materials, 10.1088/1748-6041/11/2/022001, 11, 2, (022001), (2016).
  Crossref
• Mahir Timur and Hatice Kaplan Can, Synthesis and swelling peculiarities of new hydrogels based on the macromolecular reaction of anhydride copolymers with γ-aminopropyltriethoxysilane, Artificial Cells, Nanomedicine, and Biotechnology, 10.3109/21691401.2014.998829, (1-9), (2015).
  Crossref
• Manuele Gori, Maria Chiara Simonelli, Sara Maria Giannitelli, Luca Businaro, Marcella Trombetta, Alberto Rainer and Jordi Gracia-Sancho, Investigating Nonalcoholic Fatty Liver Disease in a Liver-on-a-Chip Microfluidic Device, PLOS ONE, 10.1371/journal.pone.0159729, 11, 7, (e0159729), (2016).
  Crossref
• Elizabeth E. Antoine, Pavlos P. Vlachos, Marissa N. Rylander and Dimitrios Zeugolis, Tunable Collagen I Hydrogels for Engineered Physiological Tissue Micro-Environments, PLOS ONE, 10.1371/journal.pone.0122500, 10, 3, (e0122500), (2015).
  Crossref
• Abigail N Koppes, Megha Kamath, Courtney A Pfluger, Daniel D Burkey, Mehmet Dokmeci, Lin Wang and Rebecca L Carrier, Complex, multi-scale small intestinal topography replicated in cellular growth substrates fabricated via chemical vapor deposition of Parylene C, Biofabrication, 10.1088/1758-5090/8/3/035011, 8, 3, (035011), (2016).
  Crossref
• Sumi Bang, Dipankar Das, Jiyun Yu and Insup Noh, Evaluation of MC3T3 Cells Proliferation and Drug Release Study from Sodium Hyaluronate-1,4-butanediol Diglycidyl Ether Patterned Gel, Nanomaterials, 10.3390/nano7100328, 7, 10, (328), (2017).
  Crossref
• Silvia Minardi, Francesca Taraballi, Laura Pandolfi and Ennio Tasciotti, Patterning Biomaterials for the Spatiotemporal Delivery of Bioactive Molecules, Frontiers in Bioengineering and Biotechnology, 10.3389/fbioe.2016.00045, 4, (2016).
  Crossref
• Daniel J. Modulevsky, Charles M. Cuerrier, Andrew E. Pelling and Feng Zhao, Biocompatibility of Subcutaneously Implanted Plant-Derived Cellulose Biomaterials, PLOS ONE, 10.1371/journal.pone.0157894, 11, 6, (e0157894), (2016).
  Crossref
• Stephen W Sawyer, Ping Dong, Sarah Venn, Andrew Ramos, David Quinn, Jason A Horton and Pranav Soman, Conductive gelatin methacrylate-poly(aniline) hydrogel for cell encapsulation, Biomedical Physics & Engineering Express, 10.1088/2057-1976/aa91f9, 4, 1, (015005), (2017).
  Crossref
• Rasha Hatem Dosh, Nicola Jordan-Mahy, Christopher Sammon and Christine Lyn Le Maitre, Tissue Engineering Laboratory Models of the Small Intestine, Tissue Engineering Part B: Reviews, 10.1089/ten.teb.2017.0276, (2017).
  Crossref
• Patrick M. Misun, Jörg Rothe, Yannick R.F. Schmid, Andreas Hierlemann and Olivier Frey, Multi-analyte biosensor interface for real-time monitoring of 3D microtissue spheroids in hanging-drop networks, Microsystems & Nanoengineering, 10.1038/micronano.2016.22, 2, (16022), (2016).
  Crossref
• P Occhetta, N Sadr, F Piraino, A Redaelli, M Moretti and M Rasponi, Fabrication of 3D cell-laden hydrogel microstructures through photo-mold patterning, Biofabrication, 10.1088/1758-5082/5/3/035002, 5, 3, (035002), (2013).
  Crossref
• Raja Vadivelu, Harshad Kamble, Muhammad Shiddiky and Nam-Trung Nguyen, Microfluidic Technology for the Generation of Cell Spheroids and Their Applications, Micromachines, 10.3390/mi8040094, 8, 4, (94), (2017).
  Crossref
• Marius Köpf, Daniela F Duarte Campos, Andreas Blaeser, Kshama S Sen and Horst Fischer, A tailored three-dimensionally printable agarose–collagen blend allows encapsulation, spreading, and attachment of human umbilical artery smooth muscle cells, Biofabrication, 10.1088/1758-5090/8/2/025011, 8, 2, (025011), (2016).
  Crossref
• S. Tasoglu, C.H. Yu, H.I. Gungordu, S. Guven, T. Vural and U. Demirci, Guided and magnetic self-assembly of tunable magnetoceptive gels, Nature Communications, 10.1038/ncomms5702, 5, (4702), (2014).
  Crossref
• Yufei Ma, Yuan Ji, Tianyu Zhong, Wanting Wan, Qingzhen Yang, Ang Li, Xiaohui Zhang and Min Lin, Bioprinting-Based PDLSC-ECM Screening for in Vivo Repair of Alveolar Bone Defect Using Cell-Laden, Injectable and Photocrosslinkable Hydrogels, ACS Biomaterials Science & Engineering, 10.1021/acsbiomaterials.7b00601, (2017).
  Crossref
• Mariana Barbosa, M. Martins and Paula Gomes, Grafting Techniques towards Production of Peptide-Tethered Hydrogels, a Novel Class of Materials with Biomedical Interest, Gels, 10.3390/gels1020194, 1, 2, (194-218), (2015).
  Crossref
• Sujin Park and Kyung Park, Engineered Polymeric Hydrogels for 3D Tissue Models, Polymers, 10.3390/polym8010023, 8, 1, (23), (2016).
  Crossref
• Jessica Hoarau-Véchot, Arash Rafii, Cyril Touboul and Jennifer Pasquier, Halfway between 2D and Animal Models: Are 3D Cultures the Ideal Tool to Study Cancer-Microenvironment Interactions?, International Journal of Molecular Sciences, 10.3390/ijms19010181, 19, 1, (181), (2018).
  Crossref
• Elizabeth Antoine, Cara Buchanan, Kamel Fezzaa, Wah-Keat Lee, M. Nichole Rylander, Pavlos Vlachos and James P. Brody, Flow Measurements in a Blood-Perfused Collagen Vessel Using X-Ray Micro-Particle Image Velocimetry, PLoS ONE, 10.1371/journal.pone.0081198, 8, 11, (e81198), (2013).
  Crossref
• Fang Ren, Cigdem Yesildag, Zhenfang Zhang and Marga Lensen, Surface Patterning of Gold Nanoparticles on PEG-Based Hydrogels to Control Cell Adhesion, Polymers, 10.3390/polym9050154, 9, 5, (154), (2017).
  Crossref
• Davide Ricci, Michele Nava, Tommaso Zandrini, Giulio Cerullo, Manuela Raimondi and Roberto Osellame, Scaling-Up Techniques for the Nanofabrication of Cell Culture Substrates via Two-Photon Polymerization for Industrial-Scale Expansion of Stem Cells, Materials, 10.3390/ma10010066, 10, 1, (66), (2017).
  Crossref
• Michael V Turturro, Sonja Sokic, Jeffery C Larson and Georgia Papavasiliou, Effective tuning of ligand incorporation and mechanical properties in visible light photopolymerized poly(ethylene glycol) diacrylate hydrogels dictates cell adhesion and proliferation, Biomedical Materials, 10.1088/1748-6041/8/2/025001, 8, 2, (025001), (2013).
  Crossref
• Tessa Lühmann and Heike Hall, Cell Guidance by 3D-Gradients in Hydrogel Matrices: Importance for Biomedical Applications, Materials, 10.3390/ma2031058, 2, 3, (1058-1083), (2009).
  Crossref
• Adnan Memic, Hani A Alhadrami, M Asif Hussain, Musab Aldhahri, Fozia Al Nowaiser, Faten Al-Hazmi, Rahmi Oklu and Ali Khademhosseini, Hydrogels 2.0: improved properties with nanomaterial composites for biomedical applications, Biomedical Materials, 10.1088/1748-6041/11/1/014104, 11, 1, (014104), (2015).
  Crossref
• Huan Wang, Leslie A. Leinwand and Kristi S. Anseth, Cardiac valve cells and their microenvironment—insights from in vitro studies, Nature Reviews Cardiology, 10.1038/nrcardio.2014.162, 11, 12, (715-727), (2014)., (2014).
  Crossref
• Meghan R. Pinezich, Lauren N. Russell, Nicholas P. Murphy and Kyle J. Lampe, Encapsulated oligodendrocyte precursor cell fate is dependent on PDGF‐AA release kinetics in a 3D microparticle‐hydrogel drug delivery system, Journal of Biomedical Materials Research Part A, , (2018).
  Wiley Online Library
• Jie Li, Xuewen Du, Devon J. Powell, Rong Zhou, Junfeng Shi, Hongjian He, Zhaoqianqi Feng and Bing Xu, Down‐regulating Proteolysis to Enhance Anticancer Activity of Peptide Nanofibers, Chemistry – An Asian Journal, , (2018).
  Wiley Online Library
• Yufei Ma, Min Lin, Guoyou Huang, Yuhui Li, Shuqi Wang, Guiqin Bai, Tian Jian Lu and Feng Xu, 3D Spatiotemporal Mechanical Microenvironment: A Hydrogel‐Based Platform for Guiding Stem Cell Fate, Advanced Materials, 1705911, (2018).
  Wiley Online Library
• Annika Wenz, Iva Tjoeng, Isabelle Schneider, Petra J. Kluger and Kirsten Borchers, Improved vasculogenesis and bone matrix formation through coculture of endothelial cells and stem cells in tissue‐specific methacryloyl gelatin‐based hydrogels, Biotechnology and Bioengineering, , (2018).
  Wiley Online Library
• Vânia M. P. Vieira, Ana C. Lima, Menno de Jong and David K. Smith, Commercially Relevant Orthogonal Multi‐Component Supramolecular Hydrogels for Programmed Cell Growth, Chemistry – A European Journal, , (2018).
  Wiley Online Library
• J. P. Little, G. J. Pettet, D. W. Hutmacher and D. Loessner, SpheroidSim—Preliminary evaluation of a new computational tool to predict the influence of cell cycle time and phase fraction on spheroid growth, Biotechnology Progress, , (2018).
  Wiley Online Library
• Roberta Visone, Giovanni Stefano Ugolini, Vladimir Vinarsky, Miriam Penati, Alberto Redaelli, Giancarlo Forte and Marco Rasponi, A Simple Vacuum‐Based Microfluidic Technique to Establish High‐Throughput Organs‐On‐Chip and 3D Cell Cultures at the Microscale, Advanced Materials Technologies, 1800319, (2018).
  Wiley Online Library