Patent
Engineering of strong, pliable tissues
Joseph P. Vacanti,Christopher K. Breuer,Berverly E. Chaignaud,Toshiraru Shin'oka +3 more
- 03 Nov 1998
199
TL;DR: In this paper, it has been discovered that improved yields of engineered tissue following implantation, and engineered tissue having enhanced mechanical strength and flexibility or pliability, can be obtained by implanting, preferably subcutaneously, of a fibrous polymeric matrix for a period of time sufficient to obtain ingrowth of fibrous tissue and/or blood vessels, which is the removed for subsequent implantation at the site where the implant is desired.
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Abstract: It has been discovered that improved yields of engineered tissue following implantation, and engineered tissue having enhanced mechanical strength and flexibility or pliability, can be obtained by implantation, preferably subcutaneously, of a fibrous polymeric matrix for a period of time sufficient to obtain ingrowth of fibrous tissue and/or blood vessels, which is the removed for subsequent implantation at the site where the implant is desired. The matrix is optionally seeded prior to the first implantation, after ingrowth of the fibrous tissue, or at the time of reimplantation. The time required for fibrous ingrowth typically ranges from days to weeks. The method is particularly useful in making valves and tubular structures, especially heart valves and blood vessels.
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Citations
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References
Polyphosphazenes with etheric side groups: prospective biomedical and solid electrolyte polymers
Harry R. Allcock,P. Austin,Thomas X. Neenan,John T. Sisko,Peter M. Blonsky,Duward F. Shriver +5 more
TL;DR: In this article, the authors synthesize poly(organophosphazenes) with alkyl-ether-alkoxy groups attached to the phosphorus atoms of the skeleton, which are water-stable and either water-soluble or hydrophilic polymers.
Beyond transplantation. Third annual Samuel Jason Mixter lecture.
TL;DR: The subject of this report is the field of transplantation in its broadest definition: what has been achieved, and what may lie ahead.
Selective cell transplantation using bioabsorbable artificial polymers as matrices.
Joseph P. Vacanti,Martin A. Morse,W. Mark Saltzman,Abraham J. Domb,Antonio R. Perez-Atayde,Robert Langer +5 more
TL;DR: This method of cell transplantation, which is termed "chimeric neomorphogenesis," is an alternative to current methods and requires further study.
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