About: Synthetic biodegradable polymer

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Many opportunities exist for the application of synthetic biodegradable polymers in the biomedical area particularly in the fields of tissue engineering and controlled drug delivery. Degradation is important in biomedicine for many reasons. Degradation of the polymeric implant means surgical intervention may not be required in order to remove the implant at the end of its functional life, eliminating the need for a second surgery. In tissue engineering, biodegradable polymers can be designed such to approximate tissues, providing a polymer scaffold that can withstand mechanical stresses, provide a suitable surface for cell attachment and growth, and degrade at a rate that allows the load to be transferred to the new tissue. In the field of controlled drug delivery, biodegradable polymers o

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dbo:abstract	Many opportunities exist for the application of synthetic biodegradable polymers in the biomedical area particularly in the fields of tissue engineering and controlled drug delivery. Degradation is important in biomedicine for many reasons. Degradation of the polymeric implant means surgical intervention may not be required in order to remove the implant at the end of its functional life, eliminating the need for a second surgery. In tissue engineering, biodegradable polymers can be designed such to approximate tissues, providing a polymer scaffold that can withstand mechanical stresses, provide a suitable surface for cell attachment and growth, and degrade at a rate that allows the load to be transferred to the new tissue. In the field of controlled drug delivery, biodegradable polymers offer tremendous potential either as a drug delivery system alone or in conjunction to functioning as a medical device. In the development of applications of biodegradable polymers, the chemistry of some polymers including synthesis and degradation is reviewed below. A description of how properties can be controlled by proper synthetic controls such as copolymer composition, special requirements for processing and handling, and some of the commercial devices based on these materials are discussed. (en)
dbo:wikiPageExternalLink	http://www.pedresearch.org/pt/re/pedresearch/abstract.00006450-200805000-00006.htm;jsessionid=LtnCVSpxfcc11Tt91G8sKtSNPWNRPXvfBMSWynjPp8Zy1xTqXsQy!-1586968322!181195628!8091!-1 http://www.nature.com/nature/journal/v434/n7035/abs/nature03496.html https://web.archive.org/web/20040905133347/http:/www.cpia.ca/anti-litter/pdf/BIODEGRADEABLE%20POLYMERS%20A%20REVIEW%2024%20Nov.%202000.%20Final.PDF https://web.archive.org/web/20070312013555/http:/www.devicelink.com/mpb/archive/98/03/002.html https://web.archive.org/web/20080805105125/http:/www.azom.com/details.asp%3FArticleID=2768 http://www.pnas.org/cgi/reprint/103/48/18043.pdf http://www.pnas.org/content/98/3/842.full.pdf
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rdfs:comment	Many opportunities exist for the application of synthetic biodegradable polymers in the biomedical area particularly in the fields of tissue engineering and controlled drug delivery. Degradation is important in biomedicine for many reasons. Degradation of the polymeric implant means surgical intervention may not be required in order to remove the implant at the end of its functional life, eliminating the need for a second surgery. In tissue engineering, biodegradable polymers can be designed such to approximate tissues, providing a polymer scaffold that can withstand mechanical stresses, provide a suitable surface for cell attachment and growth, and degrade at a rate that allows the load to be transferred to the new tissue. In the field of controlled drug delivery, biodegradable polymers o (en)
rdfs:label	Synthetic biodegradable polymer (en)
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