• Balooch, M., Wu-Magidi, I.-C., Balazs, A., Lundkvist, A.S. & Marshall, L.K., Siekhaus, W.J. & Kinney, J.H. (1998) Viscoelastic properties of demineralized human dentin measured in water with atomic force microscope (AFM)-based indentation. J. Biomed. Mat. Res. A. 40, 539544.
  • Bausch, A.R., Möller, W. & Sackmann, E. (1999) Measurement of local viscoelasticity and forces in living cells by magnetic tweezers. Biophys. J. 76, 573579.
  • Bereiter-Hahn, J., Karl, L., Luers, H. & Voth, M. (1995) Mechanical basis of cell shape: investigations with the scanning acoustic microscope. Biochem. Cell Biol. 73, 337348.
  • Coimbra, V.C., Yamamoto, D., Khusal, K.G. et al . (2007) Enucleated L929 cells support invasion, differentiation, and multiplication of Trypanosoma cruzi parasites. Infect. Immun. 75(8): 37003706.
  • Cross, S. E., Jin, Y.-S., Rao, J. Y. & Gimzewski, J. K. (2007) Nanomechanical analysis of cells from cancer patients. Nature Nanotech . 2, 780783.
  • Haga, H., Sasaki, S., Kawabata, K., Ito, E., Ushiki, T. & Sambongi, T. (2000) Elasticity mapping of living fibroblasts by AFM and immunofluorescence observation of the cytoskeleton. Ultramicr. 82, 253258.
  • Hessler, J.A., Budor, A., Putchakayala, K. et al. (2005) Atomic force microscopy study of early morphological changes during apoptosis. Langmuir 21, 92809286.
  • Kim, K.S., Cho, C.H., Park, E.K., Jung, M.-H., Yoon, K.-S & Park, H.-K. (2012) AFM-detected apoptotic changes in morphology and biophysical property caused by Paclitaxel in Ishikawa and HeLa cells. PLoS one 7, e30066.
  • Lenormand, G., Hénon, S., Richert, A., Siméon, J. & Gallet, F. (2001) Direct measurement of the area expansion and shear moduli of the human red blood cell membrane skeleton. Biophys. J. 81, 4356.
  • McDaniel, D.P., Shaw, G.A., Elliott, J.T., Bhadriraju, K., Meuse, C & Chunk, K.H. (2007) The Stiffness of collagen fibrils influences vascular smooth muscle cell phenotype. Biophys. J. 92, 17591769.
  • Miljkovic, Dj., Cvetkovic, I., Stosic-Crujicic, S. & Trajkovic, V. (2003) Mycophenolic acid inhibits activation of inducible nitric oxide synthase in rodent fibroblasts. Clin. Exp. Immunol. 132, 239246.
  • Ngan, A.H.W., Tang, B. (2009) Response of power-law-viscoelastic and time-dependent materials to rate jumps. J. Mater. Res. 24, 853862.
  • Phipps, S.M.O., Berletch, J.B., Andrews, L.G. & Tollefsbol, T.O. (2007) Aging cell culture: methods and observations. Methods Mol. Biol. 371, 919.
  • Povelones, M., Waterhouse, R.M., Kafatos, F.C. & Christophides, G.K. (2009) Leucine-rich repeat protein complex activates mosquito complement in defense against plasmodium parasites. Science 324, 258261.
  • Radmacher, M., Fritz, M., Kacher, C.M., Cleveland, J.P. & Hansma, P.K. (1996) Measuring the viscoleastic properties of human platelets with the AFM. Biophys. J. 70, 556567.
  • Shao, J.Y., Ting-Beall, H.P. & Hochmuth, R.M. (1998) Micropipette suction for measuring piconewton forces of adhesion and tether formation from neutrophil membranes. Biophys. J. 71, 28922901.
  • Sokolov, I. (2007) Atomic force microscopy in cancer cell research. Cancer Nanotechnology (eds. H.S. Nalwa, T. Webster) American Scientific Publishers Inc.
  • Solon, J., Levental, I., Sengupta, K., Georges, P.C. & Janmey, P.A. (2007) Fibroblast Adaptation and Stiffness Matching to Soft Elastic Substrates. Biophys. J. 93, 44534461.
  • Suwanarusk, R., Cooke, B.M., Dondorp, A.M., Silamut, K., Sattabongkot, J., White, N.J. & Udomsangpetch, R. (2004) The deformability of red blood cells parasitized by plasmodium falciparum and P. vivax. J. Infect. Dis. 189, 190194.
  • Tang, B., Ngan, A.H.W. & Pethica, J.B. (2008) A method to quantitatively measure the elastic modulus of materials in nanometer scale using atomic force microscopy. Nanotech. 19, 495713495720.
  • Zaharak, G.I., McConnaughey, W.B. & Elson, E.L. (1990) Determination of cellular mechanical properties by cell poking, with an application to leukocytes. J. Biomech. Eng. 112, 283294.
  • Zhou, Z.L., Ngan, A.H., Tang, B. & Wang, A.X. (2012) Reliable measurement of elastic modulus of cells by nanoindentation in an atomic force microscope. J. Mech. Behav. Biomed. Mat. 8, 134142.