G
Glenn D. Prestwich
Researcher at University of Utah
Publications - 693
Citations - 45026
Glenn D. Prestwich is an academic researcher from University of Utah. The author has contributed to research in topics: Self-healing hydrogels & Lysophosphatidic acid. The author has an hindex of 88, co-authored 690 publications receiving 42758 citations. Previous affiliations of Glenn D. Prestwich include Stony Brook University & University of Tennessee.
Papers
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Journal ArticleDOI
Hyaluronic acid hydrogels for biomedical applications.
TL;DR: This progress report covers both basic concepts and recent advances in the development of HA‐based hydrogels for biomedical applications.
Journal ArticleDOI
Regulation of lung injury and repair by Toll-like receptors and hyaluronan.
Dianhua Jiang,Jiurong Liang,Juan Fan,Shuang Yu,Suping Chen,Yi Luo,Glenn D. Prestwich,Marcella M. Mascarenhas,Hari G. Garg,Deborah A. Quinn,Robert J. Homer,Daniel R. Goldstein,Richard Bucala,Patty J. Lee,Ruslan Medzhitov,Paul W. Noble +15 more
TL;DR: It is reported that hyaluronan degradation products require MyD88 and both Toll-like receptor (TLR)4 and TLR2 in vitro and in vivo to initiate inflammatory responses in acute lung injury and epithelial cell apoptosis after lung injury.
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Benzophenone photophores in biochemistry
György Dormán,Glenn D. Prestwich +1 more
TL;DR: This Perspectives includes a brief review of BP photochemistry and a selection of specific applications of these photoprobes, which address questions in protein, nucleic acid, and lipid biochemistry.
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In situ crosslinkable hyaluronan hydrogels for tissue engineering
TL;DR: The potential utility of the HA-DTPH-PEGDA hydrogel as an in situ crosslinkable, injectable material for tissue engineering is confirmed and the majority of cells survived crosslinking and the cell density increased tenfold during the 4-week culture period in vitro.
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Attachment of hyaluronan to metallic surfaces.
William G. Pitt,Robert N. Morris,Mitchell L. Mason,Matthew W. Hall,Yi Luo,Glenn D. Prestwich +5 more
TL;DR: Results of a technique to mask the surface of metals with a natural biopolymer, hyaluronan, show potential for modulating cell growth and cellular interactions with metallic implants, such as vascular stents, orthopedic implants, heart valve cages, and more.