Biomedical Engineering Reference
In-Depth Information
Close, R. Effects of cross-union of motor nerves to fast and slow skeletal muscles.
Nature
1965, 206:
831.
Close, R. Dynamic properties of fast and slow skeletal muscles of rat after nerve cross-union.
J. Physiol. Lond.
1969, 204: 331.
Close, R. and Hoh, J.F.Y. Effects of nerve cross-union on fast-twitch and slow-graded muscle fibres in toad.
J
Physiol. Lond.
1968, 198: 103.
Close, R. and Hoh, J.F.Y. Post-tetanic potentiation of twitch contractions of cross-innervated rat fast and slow
muscles.
Nature
1969, 221: 179.
Condorelli, G., Borello, U., De Angelis, L., Latronico, M., Sirabella, D., Coletta, M., Galli, R., Balconi, G.,
Follenzi, A., Frati, G., Cusella De Angelis, M.G., Gioglio, L., Amuchastegui, S., Adorini, L., Naldini,
L., Vescovi, A., Dejana, E., and Cossu, G. Cardiomyocytes induce endothelial cells to trans-differen-
tiate into cardiac muscle: implications for myocardium regeneration.
Proc. Natl Acad. Sci. USA
2001,
98(19): 10733-10738.
Conrad, G.W. et al. Differences
in vitro
between fibroblast-like cells from cornea, heart, and skin of embryonic
chicks.
J. Cell Sci.
1977, 26: 119-137.
Dennis, R.G. Bipolar implantable stimulator for long-term denervated muscle experiments.
Med. Biol. Eng.
Comput. Med. Biol. Eng. Comput.
1998 March, 36: 225-228.
Dennis, R.G. Engineered skeletal muscle: nerve and tendon tissue interfaces, contractility, excitability, and
architecture. In:
Functional Tissue Engineering
, Guilak, F., Butler, D., Mooney, D., and Goldstein, S.
(eds) Springer-Verlag, New York, 2003.
Dennis, R.G. and Kosnik, P. Excitability and isometric contractile properties of mammalian skeletal muscle
constructs engineered
in vitro. In Vitro Cell. Dev. Biol. Anim.
2000, 36(5): 327-335.
Dennis, R.G., Dow, D.E., Hsueh, A., and Faulkner, J.A. Excitability of engineered muscle constructs,
denervated and denervated-stimulated muscles of rats, and control skeletal muscles in neonatal,
young, adult, and old mice and rats.
Biophys. J.
2002, 82: 364A.
Dial, K.P. and Biewener, A.A. Pectoralis muscle force and power output during different modes of flight in
pigeons (
Columba livia
).
J. Exp. Biol.
1993, 176: 31-54.
Dickinson, M.H., Farley, C.T., Full, R.J., Koehl, M.A.R., Kram, R., and Lehman, S. How animals move: an
integrative view.
Science
2000, 288: 100-106.
Doane, K.J. and Birk, D.E. Fibroblasts retain their tissue phenotype when grown in three-dimensional collagen
gels.
Exp. Cell Res.
1991, 195(2): 432-442.
Drew, A.F., Liu, H., Davidson, J.M., Daugherty, C.C., and Degen, J.L. Wound-healing defects in mice lacking
fibrinogen.
Blood
2001, 97(12): 3691-3698.
El Oakley, R.M., Ooi, O.C., Bongso, A., and Yacoub, M.H. Myocyte transplantation for myocardial repair: a
few good cells can mend a broken heart.
Ann. Thorac. Surg.
2001, 71(5): 1724-1733. Review.
Evans, C.E. and Trail, I.A. Fibroblast-like cells from tendons differ from skin fibroblasts in their ability to form
three-dimensional structures
in vitro. J. Hand Surg. Br. Eur
. 1998, 23B(5): 633-641.
Haase, S., Cederna, P., Dennis, R.G., and Kuzon, W. Peripheral nerve reconstruction using acellular nerve
grafts.
Surg. Forum
2000, 51: 607-609.
Hatta, I., Sugi, H., et al. Stiffness changes in frog skeletal muscle during contraction recorded using ultrasonic
waves.
J. Physiol. Lond.
1988, 403: 193-209.
Hedenstrom, A. and Alerstram, T. Climbing performance of migrating birds as a basis for estimating limits for
fuel-carrying capacity and muscle work.
J. Exp. Biol.
1992, 164: 19-38.
Hoh, J.F.Y. and Close, R. Effects of nerve cross-union on twitch and slow-graded muscle fibres in toad.
Austr.
J. Exp. Biol. Med. Sci.
1967, 45: 51.
Kardon, G. Muscle and tendon morphogenesis in the avian hind limb.
Development
1998, 125: 4019-4032.
Kosnik, P. and Dennis, R.G., Mesenchymal cell culture: functional mammalian skeletal muscle constructs. In:
Methods in Tissue Engineering
, Chapter 23, Atala, A. and Lanza, R. (eds), Harcourt, Academic Press,
San Diego, California, 2002, 299-306.
Kosnik, P. Jr., Dennis, R.G., and Faulkner, J.A. Functional development of engineered skeletal muscle from
adult and neonatal rats.
Tissue Eng.
2001, 7(5): 573-584.
Loeb, G.E. and Gans, C.
Electromyography for experimentalists.
University of Chicago Press, Chicago,
Illinois, 1986.
Lutz, G.J. and Rome, L.C. Built for jumping: the design of the frog muscular system.
Science
1994, 263:
370-372.
Search WWH ::
Custom Search