SEARCH

SEARCH BY CITATION

Cited in:

CrossRef

This article has been cited by:

  1. 1
    Vera Lukashchuk, Katherine E Lewis, Ian Coldicott, Andrew J Grierson, Mimoun Azzouz, AAV9-mediated central nervous system–targeted gene delivery via cisterna magna route in mice, Molecular Therapy — Methods & Clinical Development, 2016, 3, 15055

    CrossRef

  2. 2
    S. Javanmardy, M. H. Asadi, M. Movahedin, F. Moradpour, H. Bahadoran, Derivation of motor neuron-like cells from neonatal mouse testis in a simple culture condition, Andrologia, 2016, 48, 4
  3. 3
    Faezeh Faghihi, Esmaeil Mirzaei, Jafar Ai, Abolfazl Lotfi, Forough Azam Sayahpour, Somayeh Ebrahimi Barough, Mohammad Taghi Joghataei, Differentiation Potential of Human Chorion-Derived Mesenchymal Stem Cells into Motor Neuron-Like Cells in Two- and Three-Dimensional Culture Systems, Molecular Neurobiology, 2016, 53, 3, 1862

    CrossRef

  4. 4
    Kathrin Meyer, Brian K. Kaspar, Glia–neuron interactions in neurological diseases: Testing non-cell autonomy in a dish, Brain Research, 2016,

    CrossRef

  5. 5
    Elisabet Åkesson, Erik Sundström, Human neural progenitor cells in central nervous system lesions, Best Practice & Research Clinical Obstetrics & Gynaecology, 2016, 31, 69

    CrossRef

  6. 6
    Andrés Javier Orqueda, Carla Alejandra Giménez, Federico Pereyra-Bonnet, iPSCs: A Minireview from Bench to Bed, including Organoids and the CRISPR System, Stem Cells International, 2016, 2016, 1

    CrossRef

  7. 7
    Steven A. Goldman, Stem and Progenitor Cell-Based Therapy of the Central Nervous System: Hopes, Hype, and Wishful Thinking, Cell Stem Cell, 2016, 18, 2, 174

    CrossRef

  8. 8
    Seiichi Ohta, Susumu Inasawa, Yukio Yamaguchi, Alignment of vascular endothelial cells as a collective response to shear flow, Journal of Physics D: Applied Physics, 2015, 48, 24, 245401

    CrossRef

  9. 9
    Shuqun Qi, Jian Pan, Cell-Based Therapy for Therapeutic Lymphangiogenesis, Stem Cells and Development, 2015, 24, 3, 271

    CrossRef

  10. 10
    Faezeh Faghihi, Esmaeil Mirzaei, Arash Sarveazad, Jafar Ai, Somayeh Ebrahimi Barough, Abolfazl Lotfi, Mohammad Taghi Joghataei, Differentiation Potential of Human Bone Marrow Mesenchymal Stem Cells into Motorneuron-like Cells on Electrospun Gelatin Membrane, Journal of Molecular Neuroscience, 2015, 55, 4, 845

    CrossRef

  11. 11
    Zhiliang Zhao, Mengyao Xu, Meng Wu, Kui Ma, Mengli Sun, Xiaocheng Tian, Cuiping Zhang, Xiaobing Fu, Direct reprogramming of human fibroblasts into sweat gland-like cells, Cell Cycle, 2015, 14, 21, 3498

    CrossRef

  12. 12
    Amy Montgomery, Alix Wong, Nicole Gabers, Stephanie M. Willerth, Engineering personalized neural tissue by combining induced pluripotent stem cells with fibrin scaffolds, Biomater. Sci., 2015, 3, 2, 401

    CrossRef

  13. 13
    Ava Masoumi, Eric E Low, Tarannom Shoghi, Pik K Chan, Chie F Hsiao, Scott H Chandler, Martina Wiedau-Pazos, Enrichment of human embryonic stem cell derived motor neuron cultures using arabinofuranosyl cytidine, Future Neurology, 2015, 10, 2, 91

    CrossRef

  14. 14
    Paola Spitalieri, Rosa V. Talarico, Annalisa Botta, Michela Murdocca, Maria Rosaria D'Apice, Augusto Orlandi, Emiliano Giardina, Massimo Santoro, Francesco Brancati, Giuseppe Novelli, Federica Sangiuolo, Generation of Human Induced Pluripotent Stem Cells from Extraembryonic Tissues of Fetuses Affected by Monogenic Diseases, Cellular Reprogramming, 2015, 17, 4, 275

    CrossRef

  15. 15
    Michael J. Jenkins, Suzanne S. Farid, Human pluripotent stem cell-derived products: Advances towards robust, scalable and cost-effective manufacturing strategies, Biotechnology Journal, 2015, 10, 1
  16. 16
    Jing Jing Yang, Jian Fang Liu, Takayuki Kurokawa, Kazuhiro Kitada, Jian Ping Gong, Hydrogels as feeder-free scaffolds for long-term self-renewal of mouse induced pluripotent stem cells, Journal of Tissue Engineering and Regenerative Medicine, 2015, 9, 4
  17. 17
    Giada Graziana Genchi, Francesca Cialdai, Monica Monici, Barbara Mazzolai, Virgilio Mattoli, Gianni Ciofani, Hypergravity Stimulation Enhances PC12 Neuron-Like Cell Differentiation, BioMed Research International, 2015, 2015, 1

    CrossRef

  18. 18
    Jose Carlos Gomez, John M. Edgar, Andrew M. Agbay, Emma Bibault, Amy Montgomery, Nima Khadem Mohtaram, Stephanie M. Willerth, Incorporation of Retinoic Acid Releasing Microspheres into Pluripotent Stem Cell Aggregates for Inducing Neuronal Differentiation, Cellular and Molecular Bioengineering, 2015, 8, 3, 307

    CrossRef

  19. 19
    Stepanka Skalova, Tereza Svadlakova, Wasay Qureshi, Kapil Dev, Jaroslav Mokry, Induced Pluripotent Stem Cells and Their Use in Cardiac and Neural Regenerative Medicine, International Journal of Molecular Sciences, 2015, 16, 2, 4043

    CrossRef

  20. 20
    Diana Toli, Dorothée Buttigieg, Stéphane Blanchard, Thomas Lemonnier, Boris Lamotte d’Incamps, Sarah Bellouze, Gilbert Baillat, Delphine Bohl, Georg Haase, Modeling amyotrophic lateral sclerosis in pure human iPSc-derived motor neurons isolated by a novel FACS double selection technique, Neurobiology of Disease, 2015, 82, 269

    CrossRef

  21. 21
    Balendu Shekhar Jha, Mahendra Rao, Nasir Malik, Motor Neuron Differentiation from Pluripotent Stem Cells and Other Intermediate Proliferative Precursors that can be Discriminated by Lineage Specific Reporters, Stem Cell Reviews and Reports, 2015, 11, 1, 194

    CrossRef

  22. 22
    Julius A. Steinbeck, Lorenz Studer, Moving Stem Cells to the Clinic: Potential and Limitations for Brain Repair, Neuron, 2015, 86, 1, 187

    CrossRef

  23. 23
    Xu Jiang, Mui Hoon Nai, Chwee Teck Lim, Catherine Visage, Jerry K. Y. Chan, Sing Yian Chew, Polysaccharide nanofibers with variable compliance for directing cell fate, Journal of Biomedical Materials Research Part A, 2015, 103, 3
  24. 24
    Zhijuan Mao, Suming Zhang, Hong Chen, Stem cell therapy for amyotrophic lateral sclerosis, Cell Regeneration, 2015, 4, 1

    CrossRef

  25. 25
    Nimer Adeeb, Aman Deep, Nicole Hose, Mona Rezaei, Salman Abbasi Fard, R. Shane Tubbs, Parham Yashar, Mark A. Liker, Babak Kateb, Martin M. Mortazavi, Stem cell therapy for spinal cord injury: The use of oligodendrocytes and motor neurons derived from human embryonic stem cells, Translational Research in Anatomy, 2015, 1, 17

    CrossRef

  26. 26
    Donghwa Yun, Young M. Lee, Melissa R. Laughter, Curt R. Freed, Daewon Park, Substantial Differentiation of Human Neural Stem Cells Into Motor Neurons on a Biomimetic Polyurea, Macromolecular Bioscience, 2015, 15, 9
  27. 27
    Stuart Hodgetts, Michael Edel, Alan Harvey, The State of Play with iPSCs and Spinal Cord Injury Models, Journal of Clinical Medicine, 2015, 4, 1, 193

    CrossRef

  28. 28
    Zhiliang Zhao, Mengyao Xu, Meng Wu, Xiaocheng Tian, Cuiping Zhang, Xiaobing Fu, Transdifferentiation of Fibroblasts by Defined Factors, Cellular Reprogramming, 2015, 17, 3, 151

    CrossRef

  29. 29
    Xixi Du, Jack M. Parent, Using Patient-Derived Induced Pluripotent Stem Cells to Model and Treat Epilepsies, Current Neurology and Neuroscience Reports, 2015, 15, 10

    CrossRef

  30. 30
    Huanxing Su, Qiuju Yuan, Lihua Zhou, Wutian Wu, Neural Regeneration, 2015,

    CrossRef

  31. 31
    Cheng-Chin Wang, Yung-Chih Kuo, Capillary electrophoresis of induced pluripotent stem cells during differentiation toward neurons, Journal of the Taiwan Institute of Chemical Engineers, 2014, 45, 5, 2096

    CrossRef

  32. 32
    Ali Salimi, Samad Nadri, Marzieh Ghollasi, Khosro Khajeh, Masoud Soleimani, Comparison of different protocols for neural differentiation of human induced pluripotent stem cells, Molecular Biology Reports, 2014, 41, 3, 1713

    CrossRef

  33. 33
    Sandeep K. Vishwakarma, Avinash Bardia, Santosh K. Tiwari, Syed A.B. Paspala, Aleem A. Khan, Current concept in neural regeneration research: NSCs isolation, characterization and transplantation in various neurodegenerative diseases and stroke: A review, Journal of Advanced Research, 2014, 5, 3, 277

    CrossRef

  34. 34
    Reinhard Roessler, Sebastien A. Smallwood, Jesse V. Veenvliet, Petros Pechlivanoglou, Su-Ping Peng, Koushik Chakrabarty, Marian J.A. Groot-Koerkamp, R. Jeroen Pasterkamp, Evelyn Wesseling, Gavin Kelsey, Erik Boddeke, Marten P. Smidt, Sjef Copray, Detailed Analysis of the Genetic and Epigenetic Signatures of iPSC-Derived Mesodiencephalic Dopaminergic Neurons, Stem Cell Reports, 2014, 2, 4, 520

    CrossRef

  35. 35
    Niliksha Gunewardene, Nicole Van Bergen, Duncan Crombie, Karina Needham, Mirella Dottori, Bryony A. Nayagam, Directing Human Induced Pluripotent Stem Cells into a Neurosensory Lineage for Auditory Neuron Replacement, BioResearch Open Access, 2014, 3, 4, 162

    CrossRef

  36. 36
    Ruchi Sharma, Matthew Robert Livesey, David J.A. Wyllie, Christopher Proudfoot, Christopher Bruce Alexander Whitelaw, David Christopher Hay, Francesc Xavier Donadeu, Generation of Functional Neurons from Feeder-Free, Keratinocyte-Derived Equine Induced Pluripotent Stem Cells, Stem Cells and Development, 2014, 23, 13, 1524

    CrossRef

  37. 37
    Huen Suk Kim, Jeffrey M. Bernitz, Dung-Fang Lee, Ihor R. Lemischka, Genomic Editing Tools to Model Human Diseases with Isogenic Pluripotent Stem Cells, Stem Cells and Development, 2014, 23, 22, 2673

    CrossRef

  38. 38
    Morteza Jalali, William Niall Alexander Kirkpatrick, Malcolm Gregor Cameron, Siim Pauklin, Ludovic Vallier, Human Stem Cells for Craniomaxillofacial Reconstruction, Stem Cells and Development, 2014, 23, 13, 1437

    CrossRef

  39. 39
    Karen K. Hirschi, Song Li, Krishnendu Roy, Induced Pluripotent Stem Cells for Regenerative Medicine, Annual Review of Biomedical Engineering, 2014, 16, 1, 277

    CrossRef

  40. 40
    Monica J. Chau, Todd C. Deveau, Mingke Song, Xiaohuan Gu, Dongdong Chen, Ling Wei, iPSC Transplantation Increases Regeneration and Functional Recovery After Ischemic Stroke in Neonatal Rats, STEM CELLS, 2014, 32, 12
  41. 41
    M. Patterson, X. Gaeta, K. Loo, M. Edwards, S. Smale, J. Cinkornpumin, Y. Xie, J. Listgarten, S. Azghadi, S.M. Douglass, M. Pellegrini, W.E. Lowry, let-7 miRNAs Can Act through Notch to Regulate Human Gliogenesis, Stem Cell Reports, 2014, 3, 5, 758

    CrossRef

  42. 42
    Mandana Arbab, Susanne Baars, Niels Geijsen, Modeling motor neuron disease: the matter of time, Trends in Neurosciences, 2014, 37, 11, 642

    CrossRef

  43. 43
    Maximilian Naujock, Nancy Stanslowsky, Peter Reinhardt, Jared Sterneckert, Alexandra Haase, Ulrich Martin, Kwang-Soo Kim, Reinhard Dengler, Florian Wegner, Susanne Petri, Molecular and Functional Analyses of Motor Neurons Generated from Human Cord-Blood-Derived Induced Pluripotent Stem Cells, Stem Cells and Development, 2014, 23, 24, 3011

    CrossRef

  44. 44
    Irene Faravelli, Monica Bucchia, Paola Rinchetti, Monica Nizzardo, Chiara Simone, Emanuele Frattini, Stefania Corti, Motor neuron derivation from human embryonic and induced pluripotent stem cells: experimental approaches and clinical perspectives, Stem Cell Research & Therapy, 2014, 5, 4, 87

    CrossRef

  45. 45
    D-J Yang, X-L Wang, A Ismail, C J Ashman, C F Valori, G Wang, S Gao, A Higginbottom, P G Ince, M Azzouz, J Xu, P J Shaw, K Ning, PTEN regulates AMPA receptor-mediated cell viability in iPS-derived motor neurons, Cell Death and Disease, 2014, 5, 2, e1096

    CrossRef

  46. 46
    Baisong Lu, Anthony Atala, Small molecules and small molecule drugs in regenerative medicine, Drug Discovery Today, 2014, 19, 6, 801

    CrossRef

  47. 47
    Priya Srikanth, Tracy L. Young-Pearse, Stem Cells on the Brain: Modeling Neurodevelopmental and Neurodegenerative Diseases Using Human Induced Pluripotent Stem Cells, Journal of Neurogenetics, 2014, 28, 1-2, 5

    CrossRef

  48. 48
    Yuan Yan, Min Su, Yinhong Song, Yong Tang, Xiuchun (Cindy) Tian, Debra Rood, Laijun Lai, Tbx1 Modulates Endodermal and Mesodermal Differentiation from Mouse Induced Pluripotent Stem Cells, Stem Cells and Development, 2014, 23, 13, 1491

    CrossRef

  49. 49
    Mohamad Khazaei, Ahad Siddiqui, Michael Fehlings, The Potential for iPS-Derived Stem Cells as a Therapeutic Strategy for Spinal Cord Injury: Opportunities and Challenges, Journal of Clinical Medicine, 2014, 4, 1, 37

    CrossRef

  50. 50
    Celine E.F. de Esch, Shimriet Zeidler, Rob Willemsen, Translational endpoints in fragile X syndrome, Neuroscience & Biobehavioral Reviews, 2014, 46, 256

    CrossRef

  51. 51
    I. J. Fox, G. Q. Daley, S. A. Goldman, J. Huard, T. J. Kamp, M. Trucco, Use of differentiated pluripotent stem cells in replacement therapy for treating disease, Science, 2014, 345, 6199, 1247391

    CrossRef

  52. 52
    John W. McDonald, Visar Belegu, Daniel Becker, Principles of Tissue Engineering, 2014,

    CrossRef

  53. 53
    Francesca Telese, Amir Gamliel, Dorota Skowronska-Krawczyk, Ivan Garcia-Bassets, Michael G. Rosenfeld, “Seq-ing” Insights into the Epigenetics of Neuronal Gene Regulation, Neuron, 2013, 77, 4, 606

    CrossRef

  54. 54
    Guang-Zhen Jin, Tae-Hyun Kim, Joong-Hyun Kim, Jong-Eun Won, So-Young Yoo, Seong-Jun Choi, Jung Keun Hyun, Hae-Won Kim, Bone tissue engineering of induced pluripotent stem cells cultured with macrochanneled polymer scaffold, Journal of Biomedical Materials Research Part A, 2013, 101A, 5
  55. 55
    Changhai Tian, Qiang Liu, Kangmu Ma, Yongxiang Wang, Qiang Chen, Randall Ambroz, David L. Klinkebiel, Yuju Li, Yunlong Huang, Jianqing Ding, Jie Wu, Jialin C. Zheng, Characterization of Induced Neural Progenitors from Skin Fibroblasts by a Novel Combination of Defined Factors, Scientific Reports, 2013, 3,

    CrossRef

  56. 56
    Dimitrios Karussis, Panayiota Petrou, Ibrahim Kassis, Clinical experience with stem cells and other cell therapies in neurological diseases, Journal of the Neurological Sciences, 2013, 324, 1-2, 1

    CrossRef

  57. 57
    Dan Yu, Mengfei Chen, Xuerong Sun, Jian Ge, Differentiation of mouse induced pluripotent stem cells into corneal epithelial-like cells, Cell Biology International, 2013, 37, 1
  58. 58
    Yuanyuan Yang, Jiao Jiao, Rui Gao, Hui Yao, Xiao-Fang Sun, Shaorong Gao, Direct Conversion of Adipocyte Progenitors into Functional Neurons, Cellular Reprogramming, 2013, 15, 6, 484

    CrossRef

  59. 59
    N Forraz, KE Wright, M Jurga, CP McGuckin, Experimental therapies for repair of the central nervous system: stem cells and tissue engineering, Journal of Tissue Engineering and Regenerative Medicine, 2013, 7, 7
  60. 60
    Yongxiang Wang, Changhai Tian, Jialin C. Zheng, FoxO3a Contributes to the Reprogramming Process and the Differentiation of Induced Pluripotent Stem Cells, Stem Cells and Development, 2013, 22, 22, 2954

    CrossRef

  61. 61
    Li Wan, Xiao-Jun Hu, Sun-Xing Yan, Fei Chen, Bing Cai, Xiu-Ming Zhang, Tao Wang, Xin-Bing Yu, Andy Peng Xiang, Wei-Qiang Li, Generation and neuronal differentiation of induced pluripotent stem cells in Cdyl−/− mice, NeuroReport, 2013, 24, 3, 114

    CrossRef

  62. 62
    Leonardo M.R. Ferreira, Mohammed A. Mostajo-Radji, How induced pluripotent stem cells are redefining personalized medicine, Gene, 2013, 520, 1, 1

    CrossRef

  63. 63
    Jia Liu, Cecilia Götherström, Magda Forsberg, Eva-Britt Samuelsson, Jiang Wu, Cinzia Calzarossa, Outi Hovatta, Erik Sundström, Elisabet Åkesson, Human neural stem/progenitor cells derived from embryonic stem cells and fetal nervous system present differences in immunogenicity and immunomodulatory potentials in vitro, Stem Cell Research, 2013, 10, 3, 325

    CrossRef

  64. 64
    Laurent Roybon, Nuno J. Lamas, Alejandro Garcia-Diaz, Eun Ju Yang, Rita Sattler, Vernice Jackson-Lewis, Yoon A. Kim, C. Alan Kachel, Jeffrey D. Rothstein, Serge Przedborski, Hynek Wichterle, Christopher E. Henderson, Human Stem Cell-Derived Spinal Cord Astrocytes with Defined Mature or Reactive Phenotypes, Cell Reports, 2013, 4, 5, 1035

    CrossRef

  65. 65
    Huanxing Su, Lihui Wang, Wenhao Huang, Dajiang Qin, Jinglei Cai, Xiaoli Yao, Chengqian Feng, Zhiyuan Li, Yitao Wang, Kwok-Fai So, Guangjin Pan, Wutian Wu, Duanqing Pei, Immediate expression of Cdh2 is essential for efficient neural differentiation of mouse induced pluripotent stem cells, Stem Cell Research, 2013, 10, 3, 338

    CrossRef

  66. 66
    Rui Li, Ye Bai, Tongtong Liu, Xiaoqun Wang, Qian Wu, Induced pluripotency and direct reprogramming: a new window for treatment of neurodegenerative diseases, Protein & Cell, 2013, 4, 6, 415

    CrossRef

  67. 67
    Reinhard Roessler, Erik Boddeke, Sjef Copray, Induced Pluripotent Stem Cell Technology and Direct Conversion: New Possibilities to Study and Treat Parkinson’s Disease, Stem Cell Reviews and Reports, 2013, 9, 4, 505

    CrossRef

  68. 68
    H. Wang, H. Fang, J. Dai, G. Liu, Z. J. Xu, Induced pluripotent stem cells for spinal cord injury therapy: current status and perspective, Neurological Sciences, 2013, 34, 1, 11

    CrossRef

  69. 69
    Jo'an Bardy, Allen K. Chen, Yu Ming Lim, Selena Wu, Shunhui Wei, Han Weiping, Ken Chan, Shaul Reuveny, Steve K.W. Oh, Microcarrier Suspension Cultures for High-Density Expansion and Differentiation of Human Pluripotent Stem Cells to Neural Progenitor Cells, Tissue Engineering Part C: Methods, 2013, 19, 2, 166

    CrossRef

  70. 70
    Zita Garate, Brian R. Davis, Oscar Quintana-Bustamante, Jose C. Segovia, New Frontier in Regenerative Medicine: Site-Specific Gene Correction in Patient-Specific Induced Pluripotent Stem Cells, Human Gene Therapy, 2013, 24, 6, 571

    CrossRef

  71. 71
    Paul Gordon, Philippe Corcia, Vincent Meininger, New therapy options for amyotrophic lateral sclerosis, Expert Opinion on Pharmacotherapy, 2013, 14, 14, 1907

    CrossRef

  72. 72
    Huanxing Su, Lihui Wang, Jinglei Cai, Qiuju Yuan, Xiaoying Yang, Xiaoli Yao, Wai-Man Wong, Wenhao Huang, Zhiyuan Li, Jian-Bo Wan, Yitao Wang, Duanqing Pei, Kwok-Fai So, Dajiang Qin, Wutian Wu, Transplanted motoneurons derived from human induced pluripotent stem cells form functional connections with target muscle, Stem Cell Research, 2013, 11, 1, 529

    CrossRef

  73. 73
    Antonio Musarò, Understanding ALS: new therapeutic approaches, The FEBS Journal, 2013, 280, 17
  74. 74
    C. Filippich, E. J. Wolvetang, B. J. Mowry, Will Brain Cells Derived From Induced Pluripotent Stem Cells or Directly Converted From Somatic Cells (iNs) Be Useful for Schizophrenia Research?, Schizophrenia Bulletin, 2013, 39, 5, 948

    CrossRef

  75. 75
    Mojtaba Zamani Faradonbeh, Javad Gharechahi, Sepideh Mollamohammadi, Mohammad Pakzad, Adeleh Taei, Hassan Rassouli, Hossein Baharvand, Ghasem Hosseini Salekdeh, An orthogonal comparison of the proteome of human embryonic stem cells with that of human induced pluripotent stem cells of different genetic background, Molecular BioSystems, 2012, 8, 6, 1833

    CrossRef

  76. 76
    R. Noack, S. Frede, P. Albrecht, N. Henke, A. Pfeiffer, K. Knoll, T. Dehmel, G. Meyer zu Horste, M. Stettner, B. C. Kieseier, H. Summer, S. Golz, A. Kochanski, M. Wiedau-Pazos, S. Arnold, J. Lewerenz, A. Methner, Charcot-Marie-Tooth disease CMT4A: GDAP1 increases cellular glutathione and the mitochondrial membrane potential, Human Molecular Genetics, 2012, 21, 1, 150

    CrossRef

  77. 77
    Dunja Lukovic, Victoria Moreno Manzano, Miodrag Stojkovic, Shom Shanker Bhattacharya, Slaven Erceg, Concise Review: Human Pluripotent Stem Cells in the Treatment of Spinal Cord Injury, STEM CELLS, 2012, 30, 9
  78. 78
    Josipa Bilic, Juan Carlos Izpisua Belmonte, Concise Review: Induced Pluripotent Stem Cells Versus Embryonic Stem Cells: Close Enough or Yet Too Far Apart?, STEM CELLS, 2012, 30, 1
  79. 79
    Weiqi Zhang, Shunlei Duan, Ying Li, Xiuling Xu, Jing Qu, Weizhou Zhang, Guang-Hui Liu, Converted neural cells: induced to a cure?, Protein & Cell, 2012, 3, 2, 91

    CrossRef

  80. 80
    Michaela Patterson, David N. Chan, Iris Ha, Dana Case, Yongyan Cui, Ben Van Handel, Hanna KA Mikkola, William E Lowry, Defining the nature of human pluripotent stem cell progeny, Cell Research, 2012, 22, 1, 178

    CrossRef

  81. 81
    Luni Emdad, Sunita L. D'Souza, Harini P. Kothari, Zulekha A. Qadeer, Isabelle M. Germano, Efficient Differentiation of Human Embryonic and Induced Pluripotent Stem Cells into Functional Astrocytes, Stem Cells and Development, 2012, 21, 3, 404

    CrossRef

  82. 82
    Vassiliki Nikoletopoulou, Nektarios Tavernarakis, Embryonic and induced pluripotent stem cell differentiation as a tool in neurobiology, Biotechnology Journal, 2012, 7, 9
  83. 83
    Xiaojie Wang, Daniel L. Metzger, Mark Meloche, Jianqiang Hao, Ziliang Ao, Garth L. Warnock, Generation of Transplantable Beta Cells for Patient-Specific Cell Therapy, International Journal of Endocrinology, 2012, 2012, 1

    CrossRef

  84. 84
    Yves Maury, Morgane Gauthier, Marc Peschanski, Cécile Martinat, Human pluripotent stem cells for disease modelling and drug screening, BioEssays, 2012, 34, 1
  85. 85
    Masayasu Mie, Mami Kaneko, Fumiaki Henmi, Eiry Kobatake, Induction of motor neuron differentiation by transduction of Olig2 protein, Biochemical and Biophysical Research Communications, 2012, 427, 3, 531

    CrossRef

  86. 86
    Mario Di Matteo, Eyayu Belay, Marinee K Chuah, Thierry VandenDriessche, Recent developments in transposon-mediated gene therapy, Expert Opinion on Biological Therapy, 2012, 12, 7, 841

    CrossRef

  87. 87
    Glyn Stacey, Sourcing and using stem cell lines for radiation research: Potential, challenges and good stem cell culture practice, International Journal of Radiation Biology, 2012, 88, 10, 703

    CrossRef

  88. 88
    Francesca Pistollato, Susanne Bremer-Hoffmann, Lyn Healy, Lesley Young, Glyn Stacey, Standardization of pluripotent stem cell cultures for toxicity testing, Expert Opinion on Drug Metabolism & Toxicology, 2012, 8, 2, 239

    CrossRef

  89. 89
    Koji Abe, Toru Yamashita, Shunya Takizawa, Satoshi Kuroda, Hiroyuki Kinouchi, Nobutaka Kawahara, Stem cell therapy for cerebral ischemia: from basic science to clinical applications, Journal of Cerebral Blood Flow & Metabolism, 2012, 32, 7, 1317

    CrossRef

  90. 90
    Neeru Jindal, Asok Mukhopadhyay, Akshay Anand, The emerging role of stem cells in ocular neurodegeneration: hype or hope?, Molecular and Cellular Biochemistry, 2012, 365, 1-2, 65

    CrossRef

  91. 91
    Kevin K. Kumar, Asad A. Aboud, Aaron B. Bowman, The potential of induced pluripotent stem cells as a translational model for neurotoxicological risk, NeuroToxicology, 2012, 33, 3, 518

    CrossRef

  92. 92
    Rodrigo López-González, Iván Velasco, Therapeutic Potential of Motor Neurons Differentiated from Embryonic Stem Cells and Induced Pluripotent Stem Cells, Archives of Medical Research, 2012, 43, 1, 1

    CrossRef

  93. 93
    Nutan Prasain, Mervin C. Yoder, Hematology, Immunology and Infectious Disease: Neonatology Questions and Controversies, 2012,

    CrossRef

  94. 94
    Flora M. Vaccarino, Alexander Eckehart Urban, Hanna E. Stevens, Anna Szekely, Alexej Abyzov, Elena L. Grigorenko, Mark Gerstein, Sherman Weissman, Annual Research Review: The promise of stem cell research for neuropsychiatric disorders, Journal of Child Psychology and Psychiatry, 2011, 52, 4
  95. 95
    Tamir Ben-Hur, Cell Therapy for Multiple Sclerosis, Neurotherapeutics, 2011, 8, 4, 625

    CrossRef

  96. You have free access to this content96
    Slaven Erceg, Victoria Moreno-Manzano, Marcela Garita-Hernandez, Miodrag Stojkovic, Shomi S. Bhattacharya, Concise Review: Stem Cells for the Treatment of Cerebellar-Related Disorders, STEM CELLS, 2011, 29, 4
  97. 97
    Steve S.W. Han, Luis A. Williams, Kevin C. Eggan, Constructing and Deconstructing Stem Cell Models of Neurological Disease, Neuron, 2011, 70, 4, 626

    CrossRef

  98. 98
    Ayako Kitazawa, Norio Shimizu, Differentiation of mouse induced pluripotent stem cells into neurons using conditioned medium of dorsal root ganglia, New Biotechnology, 2011, 28, 4, 326

    CrossRef

  99. 99
    Akemi Takata, Motoyuki Otsuka, Tomomi Kogiso, Kentaro Kojima, Takeshi Yoshikawa, Ryosuke Tateishi, Naoya Kato, Shuichiro Shiina, Haruhiko Yoshida, Masao Omata, Kazuhiko Koike, Direct differentiation of hepatic cells from human induced pluripotent stem cells using a limited number of cytokines, Hepatology International, 2011, 5, 4, 890

    CrossRef

  100. 100
    Samira Lakhal, Matthew J.A. Wood, Exosome nanotechnology: An emerging paradigm shift in drug delivery, BioEssays, 2011, 33, 10
  101. 101
    Karl R Koehler, Philippe Tropel, Jonathan W Theile, Takako Kondo, Theodore R Cummins, Stéphane Viville, Eri Hashino, Extended passaging increases the efficiency of neural differentiation from induced pluripotent stem cells, BMC Neuroscience, 2011, 12, 1, 82

    CrossRef

  102. 102
    Zhen-Dong WANG, Yuan XUE, Zhi-Yan SHAN, Zhong ZHENG, Xue LI, Yan-Shuang WU, Rui-Zhen SUN, Jian SHI, Ming-Jie LI, Zhong-Hua LIU, Lei LEI, Generation of mouse parthenogenetic embryonic stem cells and preliminary study of the differentiation ability to motor neurons, Hereditas (Beijing), 2011, 33, 11, 1231

    CrossRef

  103. 103
    Esther Xingwei Lee, Dang Hoang Lam, Chunxiao Wu, Jing Yang, Chee Kian Tham, Wai Hoe Ng, Shu Wang, Glioma Gene Therapy Using Induced Pluripotent Stem Cell Derived Neural Stem Cells, Molecular Pharmaceutics, 2011, 8, 5, 1515

    CrossRef

  104. 104
    Sergey P. Medvedev, Elena V. Grigor'eva, Alexander I. Shevchenko, Anastasia A. Malakhova, Elena V. Dementyeva, Alexander A. Shilov, Evgeny A. Pokushalov, Alla M. Zaidman, Maria A. Aleksandrova, Egor Yu Plotnikov, Gennady T. Sukhikh, Suren M. Zakian, Human Induced Pluripotent Stem Cells Derived from Fetal Neural Stem Cells Successfully Undergo Directed Differentiation into Cartilage, Stem Cells and Development, 2011, 20, 6, 1099

    CrossRef

  105. 105
    Morgane Gauthier, Yves Maury, Marc Peschanski, Cécile Martinat, Human pluripotent stem cells for genetic disease modeling and drug screening, Regenerative Medicine, 2011, 6, 5, 607

    CrossRef

  106. 106
    Mario A Saporta, Marica Grskovic, John T Dimos, Induced pluripotent stem cells in the study of neurological diseases, Stem Cell Research & Therapy, 2011, 2, 5, 37

    CrossRef

  107. 107
    Alejandra M. Vitale, Ernst Wolvetang, Alan Mackay-Sim, Induced pluripotent stem cells: A new technology to study human diseases, The International Journal of Biochemistry & Cell Biology, 2011, 43, 6, 843

    CrossRef

  108. 108
    Flora M. Vaccarino, Hanna E. Stevens, Arif Kocabas, Dean Palejev, Anna Szekely, Elena L. Grigorenko, Sherman Weissman, Induced pluripotent stem cells: A new tool to confront the challenge of neuropsychiatric disorders, Neuropharmacology, 2011, 60, 7-8, 1355

    CrossRef

  109. 109
    Miharu Sakurai, Ryuhei Hayashi, Tomofumi Kageyama, Masayuki Yamato, Kohji Nishida, Induction of putative stratified epithelial progenitor cells in vitro from mouse-induced pluripotent stem cells, Journal of Artificial Organs, 2011, 14, 1, 58

    CrossRef

  110. 110
    Chih-Hung Chiang, Ching-Chih Chang, Hui-Chun Huang, Yi-Jen Chen, Ping-Hsing Tsai, Shaw-Yeu Jeng, Shuen-Iu Hung, Jung-Hung Hsieh, Hsu-Shan Huang, Shih-Hwa Chiou, Fa-Yauh Lee, Shou-Dong Lee, Investigation of Hepatoprotective Activity of Induced Pluripotent Stem Cells in the Mouse Model of Liver Injury, Journal of Biomedicine and Biotechnology, 2011, 2011, 1

    CrossRef

  111. 111
    Shiva Nemati, Maryam Hatami, Sahar Kiani, Katayoun Hemmesi, Hamid Gourabi, Najmehsadat Masoudi, Sara Alaei, Hossein Baharvand, Long-Term Self-Renewable Feeder-Free Human Induced Pluripotent Stem Cell–Derived Neural Progenitors, Stem Cells and Development, 2011, 20, 3, 503

    CrossRef

  112. 112
    Vasiliki Mahairaki, Shawn H. Lim, Gregory T. Christopherson, Leyan Xu, Igor Nasonkin, Christopher Yu, Hai-Quan Mao, Vassilis E. Koliatsos, Nanofiber Matrices Promote the Neuronal Differentiation of Human Embryonic Stem Cell-Derived Neural PrecursorsIn Vitro, Tissue Engineering Part A, 2011, 17, 5-6, 855

    CrossRef

  113. 113
    Leanne Coyne, Mu Shan, Stefan A. Przyborski, Ryoko Hirakawa, Robert F. Halliwell, Neuropharmacological properties of neurons derived from human stem cells, Neurochemistry International, 2011, 59, 3, 404

    CrossRef

  114. 114
    Almudena Martinez-Fernandez, Timothy J. Nelson, Andre Terzic, Nuclear Reprogramming Strategy Modulates Differentiation Potential of Induced Pluripotent Stem Cells, Journal of Cardiovascular Translational Research, 2011, 4, 2, 131

    CrossRef

  115. 115
    Serpen Durnaoglu, Sermin Genc, Kursad Genc, Patient-Specific Pluripotent Stem Cells in Neurological Diseases, Stem Cells International, 2011, 2011, 1

    CrossRef

  116. 116
    Jiachuan Wang, Mei Tian, Hong Zhang, PET molecular imaging in stem cell therapy for neurological diseases, European Journal of Nuclear Medicine and Molecular Imaging, 2011, 38, 10, 1926

    CrossRef

  117. 117
    Feng Zhang, Fudiman Citra, Dong-An Wang, Prospects of Induced Pluripotent Stem Cell Technology in Regenerative Medicine, Tissue Engineering Part B: Reviews, 2011, 17, 2, 115

    CrossRef

  118. 118
    Rebecca Traub, Hiroshi Mitsumoto, Lewis P. Rowland, Research Advances in Amyotrophic Lateral Sclerosis, 2009 to 2010, Current Neurology and Neuroscience Reports, 2011, 11, 1, 67

    CrossRef

  119. 119
    Allen J. Naftilan, Friedrich G. Schuening, Stem Cell Therapy for Cardiac Disease: What Can Be Learned from Oncology, Heart Failure Clinics, 2011, 7, 3, 345

    CrossRef

  120. 120
    H Inoue, S Yamanaka, The Use of Induced Pluripotent Stem Cells in Drug Development, Clinical Pharmacology & Therapeutics, 2011, 89, 5
  121. 121
    Arshak R. Alexanian, Clive N. Svendsen, Maria J. Crowe, Shekar N. Kurpad, Transplantation of human glial-restricted neural precursors into injured spinal cord promotes functional and sensory recovery without causing allodynia, Cytotherapy, 2011, 13, 1, 61

    CrossRef

  122. 122
    Ashish Kumar, Nirupama Trehan Pati, Shiv Kumar Sarin, Use of Stem Cells for Liver Diseases—Current Scenario, Journal of Clinical and Experimental Hepatology, 2011, 1, 1, 17

    CrossRef

  123. 123
    Robert M. Brownstone, Douglas G. Stuart, Whither motoneurons?, Brain Research, 2011, 1409, 93

    CrossRef

  124. 124
    Kenji Osafune, Shinya Yamanaka, Regenerative Nephrology, 2011,

    CrossRef

  125. 125
    Ashleigh S Boyd, Paul J Fairchild, Approaches for immunological tolerance induction to stem cell-derived cell replacement therapies, Expert Review of Clinical Immunology, 2010, 6, 3, 435

    CrossRef

  126. 126
    Ryan P.F. Salewski, Eftekhar Eftekharpour, Michael G. Fehlings, Are induced pluripotent stem cells the future of cell-based regenerative therapies for spinal cord injury?, Journal of Cellular Physiology, 2010, 222, 3
  127. 127
    David Jukam, Claude Desplan, Binary fate decisions in differentiating neurons, Current Opinion in Neurobiology, 2010, 20, 1, 6

    CrossRef

  128. 128
    Yi Wang, Katsutsugu Umeda, Naoki Nakayama, Collaboration between WNT and BMP signaling promotes hemoangiogenic cell development from human fibroblast-derived iPS cells, Stem Cell Research, 2010, 4, 3, 223

    CrossRef

  129. 129
    Jason Tchieu, Edward Kuoy, Mark H. Chin, Hung Trinh, Michaela Patterson, Sean P. Sherman, Otaren Aimiuwu, Anne Lindgren, Shahrad Hakimian, Jerome A. Zack, Amander T. Clark, April D. Pyle, William E. Lowry, Kathrin Plath, Female Human iPSCs Retain an Inactive X Chromosome, Cell Stem Cell, 2010, 7, 3, 329

    CrossRef

  130. 130
    Takeshi Ueda, Takatsugu Yamada, Daisuke Hokuto, Fumikazu Koyama, Shogo Kasuda, Hiromichi Kanehiro, Yoshiyuki Nakajima, Generation of functional gut-like organ from mouse induced pluripotent stem cells, Biochemical and Biophysical Research Communications, 2010, 391, 1, 38

    CrossRef

  131. 131
    Meirong Li, Meixia Chen, Weidong Han, Xiaobing Fu, How far are induced pluripotent stem cells from the clinic?, Ageing Research Reviews, 2010, 9, 3, 257

    CrossRef

  132. 132
    M. Nizzardo, C. Simone, M. Falcone, F. Locatelli, G. Riboldi, G. P. Comi, S. Corti, Human motor neuron generation from embryonic stem cells and induced pluripotent stem cells, Cellular and Molecular Life Sciences, 2010, 67, 22, 3837

    CrossRef

  133. 133
    Kenji Osafune, In vitro regeneration of kidney from pluripotent stem cells, Experimental Cell Research, 2010, 316, 16, 2571

    CrossRef

  134. 134
    Oliver Comyn, Edward Lee, Robert E MacLaren, Induced pluripotent stem cell therapies for retinal disease, Current Opinion in Neurology, 2010, 23, 1, 4

    CrossRef

  135. 135
    S. Tamir Rashid, Ludovic Vallier, Induced pluripotent stem cells – alchemist's tale or clinical reality?, Expert Reviews in Molecular Medicine, 2010, 12,

    CrossRef

  136. 136
    Sowmya Parameswaran, Sudha Balasubramanian, Norbert Babai, Fang Qiu, James D. Eudy, Wallace B. Thoreson, Iqbal Ahmad, Induced Pluripotent Stem Cells Generate Both Retinal Ganglion Cells and Photoreceptors: Therapeutic Implications in Degenerative Changes in Glaucoma and Age-Related Macular Degeneration, STEM CELLS, 2010, 28, 4
  137. 137
    George T.-J. Huang, Induced Pluripotent Stem Cells—A New Foundation in Medicine, Journal of Experimental & Clinical Medicine, 2010, 2, 5, 202

    CrossRef

  138. 138
    Samira Asgari, Behshad Pournasr, Ghasem Hosseini Salekdeh, Arefeh Ghodsizadeh, Michael Ott, Hossein Baharvand, Induced pluripotent stem cells: A new era for hepatology, Journal of Hepatology, 2010, 53, 4, 738

    CrossRef

  139. 139
    Timothy J. Nelson, Almudena Martinez-Fernandez, Andre Terzic, Induced pluripotent stem cells: developmental biology to regenerative medicine, Nature Reviews Cardiology, 2010,

    CrossRef

  140. 140
    Reiesha D Robbins, Nutan Prasain, Bernhard F Maier, Mervin C Yoder, Raghavendra G Mirmira, Inducible pluripotent stem cells: not quite ready for prime time?, Current Opinion in Organ Transplantation, 2010, 15, 1, 61

    CrossRef

  141. 141
    B.-Y. Hu, J. P. Weick, J. Yu, L.-X. Ma, X.-Q. Zhang, J. A. Thomson, S.-C. Zhang, Neural differentiation of human induced pluripotent stem cells follows developmental principles but with variable potency, Proceedings of the National Academy of Sciences, 2010, 107, 9, 4335

    CrossRef

  142. 142
    Eyayu Belay, Janka Mátrai, Abel Acosta-Sanchez, Ling Ma, Mattia Quattrocelli, Lajos Mátés, Pau Sancho-Bru, Martine Geraerts, Bing Yan, Joris Vermeesch, Melvin Yesid Rincón, Ermira Samara-Kuko, Zoltán Ivics, Catherine Verfaillie, Maurilio Sampaolesi, Zsuzsanna Izsvák, Thierry VandenDriessche, Marinee K. L. Chuah, Novel Hyperactive Transposons for Genetic Modification of Induced Pluripotent and Adult Stem Cells: A Nonviral Paradigm for Coaxed Differentiation, STEM CELLS, 2010, 28, 10
  143. 143
    Ali Seifinejad, Mohammadsharif Tabebordbar, Hossein Baharvand, Laurie A. Boyer, Ghasem Hosseini Salekdeh, Progress and Promise Towards Safe Induced Pluripotent Stem Cells for Therapy, Stem Cell Reviews and Reports, 2010, 6, 2, 297

    CrossRef

  144. 144
    Francisco Dieguez-Acuña, Shohta Kodama, Yoshiaki Okubo, Ana Cristina Paz, Steven P. Gygi, Denise L. Faustman, Proteomics identifies multipotent and low oncogenic risk stem cells of the spleen, The International Journal of Biochemistry & Cell Biology, 2010, 42, 10, 1651

    CrossRef

  145. 145
    Christina Dieckmann, Regina Renner, Linda Milkova, Jan C. Simon, Regenerative medicine in dermatology: biomaterials, tissue engineering, stem cells, gene transfer and beyond, Experimental Dermatology, 2010, 19, 8
  146. 146
    Kevin Kemp, Elizabeth Mallam, Neil Scolding, Alastair Wilkins, Stem cells in genetic myelin disorders, Regenerative Medicine, 2010, 5, 3, 425

    CrossRef

  147. 147
    Olle Lindvall, Zaal Kokaia, Stem cells in human neurodegenerative disorders — time for clinical translation?, Journal of Clinical Investigation, 2010, 120, 1, 29

    CrossRef

  148. 148
    So Jeong Yun, Kyunghee Byun, Jinhyuk Bhin, Jee-Hyun Oh, Le Thi Hong Nhung, Daehee Hwang, Bonghee Lee, Transcriptional regulatory networks associated with self-renewal and differentiation of neural stem cells, Journal of Cellular Physiology, 2010, 225, 2
  149. 149
    Marie Csete, Translational prospects for human induced pluripotent stem cells, Regenerative Medicine, 2010, 5, 4, 509

    CrossRef

  150. 150
    Hynek Wichterle, Serge Przedborski, What can pluripotent stem cells teach us about neurodegenerative diseases?, Nature Neuroscience, 2010, 13, 7, 800

    CrossRef

  151. 151
    Peter Geon Kim, George Q. Daley, Application of induced pluripotent stem cells to hematologic disease, Cytotherapy, 2009, 11, 8, 980

    CrossRef

  152. 152
    David E. Buchholz, Sherry T. Hikita, Teisha J. Rowland, Amy M. Friedrich, Cassidy R. Hinman, Lincoln V. Johnson, Dennis O. Clegg, Derivation of Functional Retinal Pigmented Epithelium from Induced Pluripotent Stem Cells, STEM CELLS, 2009, 27, 10
  153. 153
    Bao-Yang Hu, Su-Chun Zhang, Differentiation of spinal motor neurons from pluripotent human stem cells, Nature Protocols, 2009, 4, 9, 1295

    CrossRef

  154. 154
    Zhihua Song, Jun Cai, Yanxia Liu, Dongxin Zhao, Jun Yong, Shuguang Duo, Xijun Song, Yushan Guo, Yang Zhao, Han Qin, Xiaolei Yin, Chen Wu, Jie Che, Shichun Lu, Mingxiao Ding, Hongkui Deng, Efficient generation of hepatocyte-like cells from human induced pluripotent stem cells, Cell Research, 2009, 19, 11, 1233

    CrossRef

  155. 155
    Carla B. Mellough, David H.W. Steel, Majlinda Lako, Genetic Basis of Inherited Macular Dystrophies and Implications for Stem Cell Therapy, STEM CELLS, 2009, 27, 11
  156. 156
    Xuejun H. Parsons, Yang D. Teng, Evan Y. Snyder, Important precautions when deriving patient-specific neural elements from pluripotent cells, Cytotherapy, 2009, 11, 7, 815

    CrossRef

  157. 157
    Mark H. Chin, Mike J. Mason, Wei Xie, Stefano Volinia, Mike Singer, Cory Peterson, Gayane Ambartsumyan, Otaren Aimiuwu, Laura Richter, Jin Zhang, Ivan Khvorostov, Vanessa Ott, Michael Grunstein, Neta Lavon, Nissim Benvenisty, Carlo M. Croce, Amander T. Clark, Tim Baxter, April D. Pyle, Mike A. Teitell, Matteo Pelegrini, Kathrin Plath, William E. Lowry, Induced Pluripotent Stem Cells and Embryonic Stem Cells Are Distinguished by Gene Expression Signatures, Cell Stem Cell, 2009, 5, 1, 111

    CrossRef

  158. 158
    Jeremy Micah Crook, Differentiation of Pluripotent Stem Cells: An Overview,
  159. 159
    Peter Kirwan, Frederick J. Livesey, Human Stem Cell Models of Neurodevelopmental Disorders,