creator Sridharan, Indumathi advisor Wang, Rong Matrix-dictated control of stem cell differentiation and tissue status are of considerable interest to cell biologists and tissue engineers. To create suitable biological scaffolds for tissue engineering and cell therapeutics, it is essential to understand the matrix mediated specification of cell lineage. Our study examines the role of matrix properties on cellular behavior and tissue mechanics. To this end, we studied the effect of collagen type I on stem cell differentiation and its mechanical properties within a live tissue. We altered the properties of collagen type 1 by incorporating CNT. The collagen-carbon nanotube (collagen-CNT) composite material was stiffer with thicker fibers and longer D-period. We find that the enhanced mechanical and structural properties of collagen-CNT allow for rapid and efficient derivation of neural progenitors from human decidua parietalis placental stem cells (hdpPSC). Both structure and stiffness of the matrix are important determinants of neural differentiation rate. Strikingly, the collagen-CNT matrix, unlike collagen, imposes the neural fate by an alternate mechanism that is independent of beta-1 integrin and beta-catenin. The study demonstrates the sensitivity of stem cells to subtle changes in the matrix and the utilization of a novel biocomposite material for efficient and directed differentiation of stem cells. Investigation of connective tissue disorders has led to the understanding of the important role played by collagen. So far, native collagen fibers within an intact tissue have not been examined. In this study, we employed a unique approach- histochemical staining guided high-resolution elasticity mapping- to study collagen and smooth muscle in fresh vaginal wall connective tissue. The comparative study of tissues collected from healthy pre-menopausal (pre-M) and post-menopausal (post-M) women suggest that during menopause, collagen’s structure and elasticity are subtly altered. The systematic analysis enables detection of minute changes in collagen in non-fatal conditions such as pelvic organ prolapse and other genitor-urinary disorders, where the initial symptoms are subtle and multivariate and where early diagnosis will allow non-invasive interventions and reduce incidence of surgical correction for these common disorders. Submitted by Dana Lamparello (dlampare@iit.edu) on 2012-08-27T20:12:06Z No. of bitstreams: 2 Thesis-Indumathi Sridharan.pdf: 5968059 bytes, checksum: bbb4dd6271143e8d3fa34c8382c63d38 (MD5) Thesis Title-Indumathi Sridharan.pdf: 256858 bytes, checksum: 13f073ac579e04eefe5d27b3234e338f (MD5) Made available in DSpace on 2012-08-27T20:12:06Z (GMT). No. of bitstreams: 2 Thesis-Indumathi Sridharan.pdf: 5968059 bytes, checksum: bbb4dd6271143e8d3fa34c8382c63d38 (MD5) Thesis Title-Indumathi Sridharan.pdf: 256858 bytes, checksum: 13f073ac579e04eefe5d27b3234e338f (MD5) Previous issue date: 2012-05 Ph.D. in Molecular Biochemistry and Biophysics, May 2012 2012-04-22 2012-05 http://hdl.handle.net/10560/2854 en Dissertation born digital application/pdf In Copyright http://rightsstatements.org/page/InC/1.0/ Restricted Access BIOL / Biology Illinois Institute of Technology Affiliated department