Zobrazeno 1 - 10
of 17
pro vyhledávání: '"Paul E. Kosnik"'
Autor:
Asheesh Bedi, Kristoffer B. Sugg, Jonathan P. Gumucio, Christopher L. Mendias, Stuart M. Roche, Adeyiza O. Momoh, Michael D. Flood, Paul E. Kosnik
Publikováno v:
International Orthopaedics. 40:759-764
Rotator cuff injuries are associated with atrophy and fat infiltration into the muscle, commonly referred to as "fatty degeneration." As the poor function of chronically torn muscles may limit recovery after surgical repair, there is considerable int
Autor:
Leigh B. Kleinert, Stuart K. Williams, Kevin D. Lye, Charles B. Ross, Gary D Gentzkow, Paul E. Kosnik, Amit J Dwevidi, Marvin E. Morris
Publikováno v:
Tissue engineering. Part C, Methods. 23(8)
Adipose-derived stromal vascular fraction (SVF) cell populations are being evaluated for numerous clinical applications. The current study evaluated a point-of-care technology, the Tissue Genesis "TGI 1000" Cell Isolation System™, to perform an aut
Autor:
Eugene Bol, Stuart K. Williams, Hyun Joon Paek, Scott S. Berman, Anthony Yang, Paul E. Kosnik, Todd Case, Courtney Kim, Shannon Iwami
Publikováno v:
Journal of Stem Cell Research & Therapeutics. 2
Autor:
Leigh B. Kleinert, Erik Vossman, Kevin D. Lye, Michelle H. Shine, Paul E. Kosnik, Stuart K. Williams
Publikováno v:
Tissue engineering. Part A. 19(11-12)
We evaluated the use of an automated, point-of-care instrument to derive canine adipose stromal vascular fraction cells, and the subsequent deposition of these cells onto the luminal surface of an expanded polytetrafluoroethylene (ePTFE) vascular gra
Publikováno v:
Tissue engineering. 10(5-6)
Surgical tendon repair is limited by the availability of viable tissue for transplantation. Because of its relatively avascular nature, tendon is a prime candidate for engineered tissue replacement. To address this problem, cells isolated from rat Ac
Publikováno v:
Functional Tissue Engineering ISBN: 9780387955537
In vitro tissue engineering of skeletal muscle involves culturing myogenic cells in an environment that emulates the in vivo environment so that the cells proliferate, fuse, organize in three dimensions, and differentiate into functional skeletal mus
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::cbfa6d46a639875605fb73d3f49765df
https://doi.org/10.1007/0-387-21547-6_28
https://doi.org/10.1007/0-387-21547-6_28
Autor:
Paul E. Kosnik, Robert G. Dennis
Publikováno v:
Methods of Tissue Engineering
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::805d714f9a55ee0c9c41a9140e4b4736
https://doi.org/10.1016/b978-012436636-7/50138-5
https://doi.org/10.1016/b978-012436636-7/50138-5
Publikováno v:
Tissue engineering. 7(5)
A myooid is a three-dimensional skeletal muscle construct cultured from mammalian myoblasts and fibroblasts. The purpose was to compare over several weeks in culture the morphology, excitability, and contractility of myooids developed from neonatal a
Publikováno v:
American journal of physiology. Cell physiology. 280(2)
The purpose of this study was to compare the excitability and contractility of three-dimensional skeletal muscle constructs, termed myooids, engineered from C2C12myoblast and 10T½ fibroblast cell lines, primary muscle cultures from adult C3H mice, a
Autor:
Eugene Boland, Michelle Hairfield-Stein, Hyun Joon Paek, Robert G. Dennis, Christopher T. England, Kerry B. Gilbraith, Paul E. Kosnik
Publikováno v:
Tissue Engineering. :070116053433001
The human anterior cruciate ligament is ruptured 200,000 times per year in the United States, resulting in medical costs of $1 billion. The standard treatment is patellar tendon autograft, but this treatment is suboptimal because of lengthy recovery