Biomedical Engineering Reference
In-Depth Information
Calloni, R., Cordero, E. A., Henriques, J. A., & Bonatto, D. (2013). Reviewing and updating the
major molecular markers for stem cells.
Stem Cells and Development
. [Epub ahead of print]
Campbell, C. J. (1969). The healing of cartilage defects.
Clinical Orthopaedics, 64,
45-63.
Canty, E. G., & Kadler, K. E. (2005). Procollagen trafficking, processing and fibrillogenesis.
Jour-
nal of Cell Science, 118,
1341-1353.
Cao, X., & Shoichet, M. S. (2003). Investigating the synergistic effect of combined neurotrophic
factor concentration gradients to guide axonal growth.
Neuroscience, 122,
381-389.
Carbonetto, S. (1991). Facilitatory and inhibitory effects of glial cells and extracellular matrix in
axonal regeneration.
Current Opinion in Neurobiology, 1,
407-413.
Carbonetto, S., & Cochard, P. (1987). In vitro studies on the control of nerve fiber growth by the
extracellular matrix of the nervous system.
The Journal of Physiology, 82,
258-270.
Carbonetto, S., Gruver, M. M., & Turner, D. C. (1983). Nerve fiber growth in culture on fibronec-
tin, collagen, and glycosaminoglycan substrates.
The Journal of Neuroscience, 3,
2324-2335.
Carey, D. J., & Todd, M. S. (1987). Schwann cell myelination in a chemically defined medium:
Demonstration of a requirement for additives that promote Schwann cell extracellular matrix
formation.
Brain Research, 429,
95-102.
Carey, D. J., Eldridge, C. F., Cornbrooks, C. J., Timpl, R., & Bunge, R. P. (1983). Biosynthesis
of type IV collagen by cultured rat Schwann cells.
The Journal of Cell Biology, 97,
473-479.
Carey, D. J., Todd, M. S., & Rafferty, C. M. (1986). Schwann cell myelination: Induction by
exogenous basement membrane-like extracellular matrix.
The Journal of Cell Biology, 102,
2254-2263.
Carletti, E., Motta, A., & Migliaresi, C. (2011). Scaffolds for tissue engineering and 3D cell cul-
ture.
Methods in Molecular Biology, 695,
17-39.
Carman, L. S., Schneider, G. E., & Yannas, I. V. (1988). Extension of critical age for retinal axon
regeneration by polymer bridges conditioned in neonatal cortex.
Society for Neuroscience, 14,
498.
Carrel, A., Hartmann, R., A (1916). Cicatrization of wounds I: The relation between the size of a
wound and the rate of its cicatrization.
The Journal of Experimental Medicine, 24,
429-450.
Carver, N., Navsaria, H. A., Green, C. J., & Leigh, I. M. (1993a). The effect of backing materials
on keratinocyte autograft take.
British Journal of Plastic Surgery, 46,
228-234.
Carver, N., Navsaria, H. A., Fryer, P., Green, C. J., & Leigh, I. M. (1993b). Restoration of base-
ment membrane structure in pigs following keratinocyte autografting.
British Journal of Plas-
tic Surgery, 46,
384-392.
Carver, W., Molano, I., Reaves, T. A., Borg, T. K., & Terracio, L. (1995). Role of the alpha 1
beta 1 integrin complex in collagen gel contraction in vitro by fibroblasts.
Journal of Cellular
Physiology, 165,
425-437.
Cass, D. L., Sylvester, K. G., Yang, E. Y., Crombleholme, T. M., & Adzick, N. S. (1997). Myofi-
broblast persistence in fetal sheep wounds is associated with scar formation.
Journal of Pedi-
atric Surgery, 32,
1017-1021.
Ceballos, D., Navarro, X., Dubey, N., Wendelschafer-Crabb, G., Kennedy, W. R., & Tranquillo, R.
T. (1999). Magnetically aligned collagen gel filling a collagen nerve guide improves peripheral
nerve regeneration.
Experimental Neurology, 158,
290-300.
Chamberlain, L. J. (1998).
Influence of implant parameters on the mechanisms of peripheral nerve
regeneration
. Ph.D. thesis, Massachusetts Institute of Technology, Cambridge, MA.
Chamberlain, L. J., & Yannas, I. V. (1998). Preparation of collagen-glycosaminoglycan copoly-
mers for tissue regeneration. In J. R. Morgan & M. L. Yarmush (Eds.),
Methods of molecular
medicine
. Tolowa: Humana Press.
Chamberlain, L. J., Yannas, I. V., Arrizabalaga, A., Hsu, H. P., Norregaard, T. V., & Spector, M.
(1998a). Early peripheral nerve healing in collagen and silicone tube implants: Myofibroblasts
and the cellular response.
Biomaterials, 19,
1393-1403.
Chamberlain, L. J., Yannas, I. V., Hsu, H. P., Strichartz, G., & Spector, M. (1998b). Collagen-GAG
substrate enhances the quality of nerve regeneration through collagen tubes up to level of auto-
graft.
Experimental Neurology, 154,
315-329.
