D
David G. Simpson
Researcher at Virginia Commonwealth University
Publications - 80
Citations - 12952
David G. Simpson is an academic researcher from Virginia Commonwealth University. The author has contributed to research in topics: Electrospinning & Tissue engineering. The author has an hindex of 47, co-authored 80 publications receiving 12343 citations. Previous affiliations of David G. Simpson include University of South Carolina.
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Journal ArticleDOI
Electrospinning of collagen nanofibers.
TL;DR: The experiments demonstrate that it is possible to tailor subtle mechanical properties into a matrix by controlling fiber orientation, and suggest that electrospun collagen may represent a nearly ideal tissue engineering scaffold.
Journal ArticleDOI
Release of tetracycline hydrochloride from electrospun poly(ethylene-co-vinylacetate), poly(lactic acid), and a blend
El-Refaie Kenawy,Gary L. Bowlin,Kevin Mansfield,John Layman,David G. Simpson,Elliot H. Sanders,Gary E. Wnek +6 more
TL;DR: Electrospun fiber mats are explored as drug delivery vehicles using tetracycline hydrochloride as a model drug to compare to a commercially available drug delivery system and to cast films of the various formulations.
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Nanofiber technology: designing the next generation of tissue engineering scaffolds.
TL;DR: This review will discuss the three primary technologies available to create tissue engineering scaffolds that are capable of mimicking native tissue, as well as explore the wide array of materials investigated for use in scaffolds.
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Electrospinning collagen and elastin: preliminary vascular tissue engineering.
Eugene D. Boland,Jamil A. Matthews,Kristin J. Pawlowski,David G. Simpson,Gary E. Wnek,Gary L. Bowlin +5 more
TL;DR: The research presented herein provides preliminary data toward the development of electrospun collagen and elastin tissue engineering scaffolds for theDevelopment of a three layer vascular construct.
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Electrospinning of Nanofiber Fibrinogen Structures
TL;DR: In this paper, the first results of electrospinning fibrinogen nanofibers for use as a tissue-engineering scaffold, wound dressing, or hemostatic bandage are reported.