Current Development of Biodegradable Polymeric Materials for Biomedical Applications

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Penn collection
Departmental Papers (Dental)
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Drug delivery
Natural biomaterials
Synthetic biomaterials
Tissue engineering
Wound healing
Animals
Biocompatible Materials
Biomedical Research
Drug Delivery Systems
Humans
Polymers
Prostheses and Implants
Tissue Engineering
Wound Healing
alginic acid
arabinogalactan
biodegradable plastic
biomaterial
carmustine
chitin
chitosan
chlorhexidine
collagen
fibrin
gelatin
gentamicin
hyaluronic acid derivative
insulin
polyanhydride
polycaprolactone
polyester
polyhydroxyalkanoic acid
polymer
polysaccharide
polyurethan
silk
starch
biomaterial
polymer
bone graft
brain cancer
controlled drug release
drug delivery system
enzymatic degradation
human
hydrogel
insulin dependent diabetes mellitus
nonhuman
Review
sustained drug release
tissue engineering
wound healing
animal
chemistry
drug delivery system
drug effect
medical research
metabolism
prostheses and orthoses
tissue engineering
wound healing
Dental Materials
Dentistry
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Song, Richard
Murphy, Maxwell
Li, Chenshuang
Ting, Kang
Soo, Chia
Zheng, Zhong
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Abstract

In the last half-century, the development of biodegradable polymeric materials for biomedical applications has advanced significantly. Biodegradable polymeric materials are favored in the development of therapeutic devices, including temporary implants and three-dimensional scaffolds for tissue engineering. Further advancements have occurred in the utilization of biodegradable polymeric materials for pharmacological applications such as delivery vehicles for controlled/sustained drug release. These applications require particular physicochemical, biological, and degradation properties of the materials to deliver effective therapy. As a result, a wide range of natural or synthetic polymers able to undergo hydrolytic or enzymatic degradation is being studied for biomedical applications. This review outlines the current development of biodegradable natural and synthetic polymeric materials for various biomedical applications, including tissue engineering, temporary implants, wound healing, and drug delivery. © 2018 Song et al.

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2018-01-01
Journal title
Drug Design, Development and Therapy
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At the time of publication, author Chenshuang Li was affiliated with the School of Dentistry, University of California. Currently, (s)he is a faculty member at the School of Dental Medicine at the University of Pennsylvania.
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