Biomedical Engineering Reference
In-Depth Information
Maruyama, T., Ayabe, S., Murata, T., Hori, M., & Ozaki, H. (2011). Relaxant effect of prostaglan-
din D(2)-receptor DP agonist on liver myofibroblast contraction.
Journal of Pharmacological
Sciences, 116,
197-203.
Massagué, J., & Like, B. (1985). Cellular receptors for type-b transforming growth factor.
The
Journal of Biological Chemistry, 260,
2636-2645.
Mast, B. A. (1992). The skin. In I. K. Cohen, R. F. Diegelmann, & W. J. Lindblad (Eds.),
Wound
healing
. Philadelphia: Saunders.
Mast, B. A., Diegelmann, R. F., Krummel, T. M., & Cohen, I. K. (1992a). Scarless wound healing
in the mammalian fetus.
Surgery, Gynecology & Obstetrics, 174,
441-451.
Mast, B. A., Neslon, J. M., & Krummel, T. M. (1992b). Tissue repair in the mammalian fetus. In I.
K. Cohen, R. F. Diegelmann, & W. J. Lindblad (Eds.),
Wound healing
. Philadelphia: Saunders.
Masur, S. K., Dewal, H. S., Dinh, T. T., Erenburg, I., & Petridou, S. (1996). Myofibroblasts dif-
ferentiate from fibroblasts when plated at low density.
Proceedings of the National Academy of
Sciences of the United States of America, 93,
4219-4223.
Matsumura, H., Gondo, M., Imai, R., Shibata, D., & Watanabe, K. (2013). Chronological histolog-
ical findings of cultured epidermal autograft over bilayer artificial dermis.
Burns, 39,
705-713.
Matsuzaki, T., Inamatsu, M., & Yoshizato, K. (1996). The upper dermal sheath has a potential to
regenerate the hair in the rat follicular epidermis.
Differentiation, 60,
287-297.
Masuzaki, R., Zhao, S. R., Csizmadia, E., Yannas, I., & Karp, S. J. (2013). Scar formation and lack
of regeneration in adult and neonatal liver after stromal injury.
Wound Repair and Regenera-
tion, 21,
122-130.
Mayr, E. (1997).
This is biology
. Cambridge: Harvard University Press.
McCallion, R. L., & Ferguson, M. W. J. (1996). Fetal wound healing and the development of antis-
carring therapies for adult wound healing. In R. A. F. Clark (Ed.),
The molecular and cellular
biology of wound repair
. New York: Plenum.
McCarthy, M. (2007).
The sun farmer
. Chicago: Ivan R. Dee.
McColl, D., Cartlidge, B., & Connolly, P. (2007). Real-time monitoring of moisture levels in
wound dressings in vitro: An experimental study.
International Journal of Surgery, 5,
316-322.
McCusker, C. D., & Gardiner, D. M. (2014). Understanding positional cues in salamander limb
regeneration: Implications for optimizing cell-based regenerative therapies.
Disease Models &
Mechanisms, 7,
593-599.
McGarvey, M. L., Evercooren, A. G. V., Kleinman, H. K., & Dubois-Dalcq, M. (1984). Synthesis
and effects of basement membrane components in cultured rat Schwann cells.
Developmental
Biology, 105,
18-28.
McGrath, M. H. (1982). The effect of prostaglandin inhibitors on wound contraction and the myo-
fibroblast.
Plastic and Reconstructive Surgery, 69,
71-83.
McMinn, R. M. H. (1969).
Tissue repair
. New York: Academic.
McNeil, P. L., & Ito, S. (1990). Molecular traffic through plasma membrane disruptions of cells in
vivo.
Journal of Cell Science, 96,
549-556.
McNeil, P. L., Muthukrishnan, L., Warder, E., & D'Amore, P. A. (1989). Growth factors are re-
leased by mechanically wounded endothelial cells.
The Journal of Cell Biology, 109,
811-822.
McNeil, P. L., Vogel, S. S., Miyake, K., & Terasaki, M. (2000). Patching plasma membrane disrup-
tions with cytoplasmic membrane.
Journal of Cell Science, 113,
1891-1902.
McPherson, J. M., & Piez, K. A. (1988).
Collagen in dermal wound repair
(edited by R. A. F
Clark; 2nd ed.). New York: Plenum.
Medawar, P. B. (1944). The behavior and fate of skin autografts and skin homografts in rabbits.
Journal of Anatomy, 78,
176-199.
Melchels, F. P., Barradas, A. M., van Blitterswijk, C. A., de Boer, J., Feijen, J., & Grijpma, D. W.
(2010). Effects of the architecture of tissue engineering scaffolds on cell seeding and culturing.
Acta Biomaterialia, 6,
4208-4217.
Mellin, T. N., Mennie, R. J., Cashen, D. E., Ronan, J. J., Capparella, J., James, M. L., Disalvo,
J., Frank, J., Linemeyer, D., Gimenez-Gallego, G., & Thomas, K. A. (1992). Acid fibroblast
growth factor accelerates dermal wound healing.
Growth Factors, 7,
1-14.