Biomedical Engineering Reference
In-Depth Information
TAN, W., SCOTT, D., BELCHENKO, D., QI, H.J., and XIAO, L. (2008). Development and
evaluation of microdevices for studying anisotropic biaxial cyclic stretch on cells.
Biomed Microdevices 10 , 869-882.
TAURA, D., SONE, M., HOMMA, K., OYAMADA, N., TAKAHASHI, K., TAMURA, N., YAMANAKA,
S., and NAKAO, K. (2009). Induction and isolation of vascular cells from human
induced pluripotent stem cells - brief report. Arterioscler Thromb Vasc Biol 29 ,
1100-1103.
TAYLOR, L.M., JR., EDWARDS, J.M., and PORTER, J.M. (1990). Present status of reversed
vein bypass grafting: fi ve-year results of a modern series. J Vasc Surg 11 , 193-205;
discussion 205-206.
TEEBKEN, O.E., PICHLMAIER, A.M., and HAVERICH, A. (2001). Cell seeded decellularised
allogeneic matrix grafts and biodegradable polydioxanone-prostheses compared
with arterial autografts in a porcine model. Eur J Vasc Endovasc Surg 22 ,
139-145.
TEO, W.E., and RAMAKRISHNA, S. (2006). A review on electrospinning design and
nanofi bre assemblies. Nanotechnology 17 , R89-R106.
THOMSON, J.A., ITSKOVITZ-ELDOR, J., SHAPIRO, S.S., WAKNITZ, M.A., SWIERGIEL, J.J.,
MARSHALL, V. S. , and JONES, J.M. (1998). Embryonic stem cell lines derived from
human blastocysts. Science 282 , 1145-1147.
TIWARI, A., SALACINSKI, H.J., HAMILTON, G., and SEIFALIAN, A.M. (2001). Tissue engi-
neering of vascular bypass grafts: role of endothelial cell extraction. Eur J Vasc
Endovasc Surg 21 , 193-201.
TIWARI, A., KIDANE, A., PUNSHON, G., HAMILTON, G., and SEIFALIAN, A.M. (2003a).
Extraction of cells for single-stage seeding of vascular-bypass grafts. Biotechnol
Appl Biochem 38 , 35-41.
TIWARI, A., KIDANE, A., SALACINSKI, H., PUNSHON, G., HAMILTON, G., and SEIFALIAN, A.M.
(2003b). Improving endothelial cell retention for single stage seeding of pros-
thetic grafts: use of polymer sequences of arginine-glycine-aspartate. Eur J Vasc
Endovasc Surg 25 , 325-329.
TOPOUZIS, S., and MAJESKY, M.W. (1996). Smooth muscle lineage diversity in the chick
embryo. Two types of aortic smooth muscle cell differ in growth and receptor-
mediated transcriptional responses to transforming growth factor-beta. Develop-
mental Biol 178 , 430-445.
TORIKAI, K., ICHIKAWA, H., HIRAKAWA, K., MATSUMIYA, G., KURATANI, T., IWAI, S., SAITO,
A., KAWAGUCHI, N., MATSUURA, N., and SAWA, Y. (2008). A self-renewing, tissue-
engineered vascular graft for arterial reconstruction. J Thorac Cardiovasc Surg
136 , 37-45.
TRANQUILLO, R.T. (2002). The tissue-engineered small-diameter artery. Ann N Y
Acad Sci 961 , 251-254.
TSCHOEKE, B., FL ANAGAN, T.C., KOCH, S., HARWOKO, M.S., DEICHMANN, T., ELLA, V. ,
SACHWEH, J.S., KELLOMAKI, M., GRIES, T., SCHMITZ-RODE, T., et al. (2009). Tissue-
engineered small-caliber vascular graft based on a novel biodegradable composite
fi brin-polylactide scaffold. Tissue Eng Part A 15 , 1909-1918.
TU, R., QUIJANO, R.C., LU, C.L., SHEN, S., WANG, E., HATA, C., and LIN, D. (1993). A
preliminary study of the fi xation mechanism of collagen reaction with a polyepoxy
fi xative. Int J Artif Organs 16 , 537-544.
TUCKER, O.P., SYBURRA, T., AUGSTBURGER, M., VAN MELLE, G., GEBHARD, S., BOSMAN, F. ,
and VON SEGESSER, L.K. (2002). Small intestine without mucosa as a growing vas-
￿ ￿ ￿ ￿ ￿
Search WWH ::




Custom Search