Sharma, Ram - University of Bath - Department of Chemical Engineering

个人简介

Dr Ram Sharma completed his doctoral work in Chemical Engineering at Rutgers University, US. He then took up a postdoctoral appointment at ETH Zurich where he was simultaneously the Cell Mechanics Group Leader. He joined the University of Bath as a Lecturer in September 2012.

研究领域

Dr Sharma is interested in understanding how the diseased microenvironment that a cell resides in can alter the phenotype of a cell.

近期论文

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Kular, J., Basu, S. and Sharma, R., 2014. The extracellular matrix:Structure, composition, age-related differences, tools for analysis and applications for tissue engineering. Journal of Tissue Engineering, 5, pp. 1-17. Diederich, V. E. G., Studer, P., Kern, A., Lattuada, M., Storti, G., Sharma, R.I., Snedeker, J.G. and Morbidelli, M., 2013. Bioactive polyacrylamide hydrogels with gradients in mechanical stiffness. Biotechnology and Bioengineering, 110 (5), pp. 1508-1519. Sharma, R. I. and Snedeker, J. G., 2012. Paracrine interactions between mesenchymal stem cells affect substrate driven differentiation toward tendon and bone phenotypes. PLoS ONE, 7 (2), e31504. Sharma, R. I., Schwarzbauer, J. E. and Moghe, P. V., 2011. Nanomaterials can dynamically steer cell responses to biological ligands. Small, 7 (2), pp. 242-251. Bartalena, G., Grieder, R., Sharma, R. I., Zambelli, T., Muff, R. and Snedeker, J. G., 2011. A novel method for assessing adherent single-cell stiffness in tension:Design and testing of a substrate-based live cell functional imaging device. Biomedical Microdevices, 13 (2), pp. 291-301. Sharma, R. I. and Snedeker, J. G., 2010. Biochemical and biomechanical gradients for directed bone marrow stromal cell differentiation toward tendon and bone. Biomaterials, 31 (30), pp. 7695-7704. Sharma, R. I., Shreiber, D. I. and Moghe, P. V., 2008. Nanoscale variation of bioadhesive substrates as a tool for engineering of cell matrix assembly. Tissue Engineering Part A, 14 (7), pp. 1237-1250. Pereira, M., Sharma, R. I., Penkala, R., Gentzel, T. A., Schwarzbauer, J. E. and Moghe, P. V., 2007. Engineered cell-adhesive nanoparticles nucleate extracellular matrix assembly. Tissue Engineering Parts A, B, & C, 13 (3), pp. 567-578. Sharma, R. I., Pereira, M., Schwarzbauer, J. E. and Moghe, P. V., 2006. Albumin-derived nanocarriers:Substrates for enhanced cell adhesive ligand display and cell motility. Biomaterials, 27 (19), pp. 3589-3598. Sharma, R. I., Kohn, J. and Moghe, P. V., 2004. Poly(ethylene glycol) enhances cell motility on protein-based poly(ethylene glycol)-polycarbonate substrates:A mechanism for cell-guided ligand remodeling. Journal of Biomedical Materials Research - Part A, 69 (1), pp. 114-123.