Advances in tissue engineering of blood vessels and other tissues.
暂无分享,去创建一个
[1] Robert Langer,et al. Biodegradable Polymer Scaffolds for Tissue Engineering , 1994, Bio/Technology.
[2] F A Auger,et al. In vitro construction of a human blood vessel from cultured vascular cells: a morphologic study. , 1993, Journal of vascular surgery.
[3] J. Vacanti,et al. Hepatocyte transplantation in biodegradable polymer scaffolds using the Dalmatian dog model of hyperuricosuria. , 1995, Transplantation proceedings.
[4] B. Ballermann,et al. Shear stress-conditioned, endothelial cell-seeded vascular grafts: improved cell adherence in response to in vitro shear stress. , 1995, Surgery.
[5] A. Mikos,et al. Fabrication of pliable biodegradable polymer foams to engineer soft tissues. , 1996, Cell transplantation.
[6] E Bell,et al. A blood vessel model constructed from collagen and cultured vascular cells. , 1986, Science.
[7] J. Vacanti,et al. Outcome of subcutaneous islet transplantation improved by a polymer device. , 1995, Transplantation proceedings.
[8] V. Shayani,et al. Optimization of recombinant t-PA secretion from seeded vascular grafts. , 1994, The Journal of surgical research.
[9] D. Ingber,et al. Prevascularization of porous biodegradable polymers , 1993, Biotechnology and bioengineering.
[10] R. Langer,et al. Synthesis of Poly(L-lactic acid-co-L-lysine) Graft Copolymers , 1995 .
[11] Y. Ito,et al. Materials for enhancing cell adhesion by immobilization of cell-adhesive peptide. , 1991, Journal of biomedical materials research.
[12] E Bell. Biotechnology meets biomaterials , 1994, Journal of cellular biochemistry.
[13] H. Greisler,et al. Biointeractive polymers and tissue engineered blood vessels. , 1996, Biomaterials.
[14] Robert Langer,et al. Synthesis and RGD peptide modification of a new biodegradable copolymer: poly(lactic acid-co-lysine) , 1993 .
[15] D. Loisance,et al. A new device for endothelial cell seeding of a small-caliber vascular prosthesis. , 2008, Artificial organs.
[16] R Langer,et al. Design and Fabrication of Biodegradable Polymer Devices to Engineer Tubular Tissues , 1994, Cell transplantation.
[17] G. Vunjak‐Novakovic,et al. Composition of cell‐polymer cartilage implants , 1994, Biotechnology and bioengineering.
[18] M L Cooper,et al. Evaluation of a biodegradable matrix containing cultured human fibroblasts as a dermal replacement beneath meshed skin grafts on athymic mice. , 1992, Surgery.
[19] J. Hosenpud,et al. Cardiac allograft vasculopathy. Preferential regulation of endothelial cell-derived mesenchymal growth factors in response to a donor-specific cell-mediated allogeneic response. , 1996, Transplantation.
[20] B. McManus,et al. The pathogenesis of cardiac allograft vasculopathy. , 1996, Current opinion in cardiology.
[21] J. Hubbell,et al. Polymer networks with grafted cell adhesion peptides for highly biospecific cell adhesive substrates. , 1994, Analytical biochemistry.
[22] H. Kobayashi,et al. An artificial blood vessel with an endothelial-cell monolayer. , 1992, Journal of neurosurgery.
[23] A. Gotlieb,et al. Stranger in a strange land: the pathogenesis of saphenous vein graft stenosis with emphasis on structural and functional differences between veins and arteries. , 1991, Progress in cardiovascular diseases.
[24] Ross R. Muth,et al. Biodegradable polymers for use in surgery—polyglycolic/poly(actic acid) homo- and copolymers: 1 , 1979 .
[25] G. Osol. Mechanotransduction by vascular smooth muscle. , 1995, Journal of vascular research.
[26] T. Matsuda,et al. Mechanical stress induced cellular orientation and phenotypic modulation of 3-D cultured smooth muscle cells. , 1993, ASAIO journal.
[27] R Langer,et al. Design of nasoseptal cartilage replacements synthesized from biodegradable polymers and chondrocytes. , 1994, Biomaterials.
[28] J. Vacanti,et al. Tissue engineering : Frontiers in biotechnology , 1993 .