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Claire G. Jeong
Researcher at GlaxoSmithKline
Publications - 20
Citations - 905
Claire G. Jeong is an academic researcher from GlaxoSmithKline. The author has contributed to research in topics: Chondrogenesis & Tissue engineering. The author has an hindex of 12, co-authored 20 publications receiving 765 citations. Previous affiliations of Claire G. Jeong include Duke University & University of Michigan.
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Journal ArticleDOI
Tunneling Nanotubes and Gap Junctions-Their Role in Long-Range Intercellular Communication during Development, Health, and Disease Conditions.
Jennifer L. Ariazi,Andrew B. Benowitz,Vern de Biasi,Monique L. den Boer,Stephanie Cherqui,Haifeng Cui,Nathalie Douillet,Eliseo A. Eugenin,Eliseo A. Eugenin,David Favre,Spencer Goodman,Karine Gousset,Dorit Hanein,David I. Israel,Shunsuke Kimura,Robert B. Kirkpatrick,Nastaran Z. Kuhn,Claire G. Jeong,Emil Lou,Robbie B. Mailliard,Stephen Maio,George Okafo,Matthias Osswald,Matthias Osswald,Jennifer Pasquier,Roel Polak,Gabriele Pradel,Bob de Rooij,Peter Schaeffer,Vytenis Arvydas Skeberdis,Ian F. Smith,Ahmad Tanveer,Niels Volkmann,Zhenhua Wu,Chiara Zurzolo +34 more
TL;DR: The combined data from numerous laboratories indicate that some TNT mediate a long-range gap junctional communication to coordinate metabolism and signaling, in relation to infectious, genetic, metabolic, cancer, and age-related diseases.
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A Comparison of the influence of material on in vitro cartilage tissue engineering with PCL, PGS, and POC 3D scaffold architecture seeded with chondrocytes
TL;DR: 3D polycaprolactone, poly (glycerol sebacate) (PGS), and poly (1,8 octanediol-co-citrate) scaffolds of the same design were physically characterized and tissue regeneration in terms of cell phenotype, cellular proliferation and differentiation, and matrix production were compared to find which material would be most optimal for cartilage regeneration in vitro.
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Non-invasive monitoring of tissue scaffold degradation using ultrasound elasticity imaging
TL;DR: Preliminary in vitro and in vivo results with poly(1,8-octanediol-co-citrate) scaffolds support the feasibility of UEI as a non-invasive quantitative monitoring tool for scaffold degradation and engineered tissue formation.
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Photocrosslinkable laminin-functionalized polyethylene glycol hydrogel for intervertebral disc regeneration.
TL;DR: Findings suggest that soft, LM111-functionalized hydrogels may promote or maintain the expression of specific markers characteristic of an immature NP cell phenotype.
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Navigating tissue chips from development to dissemination: A pharmaceutical industry perspective.
Lorna Ewart,Kristin M. Fabre,Ananthsrinivas Chakilam,Yvonne P. Dragan,David B. Duignan,Jeetu Eswaraka,Jinping Gan,Peggy Guzzie-Peck,Monicah A. Otieno,Claire G. Jeong,Douglas A. Keller,Sonia M. de Morais,Jonathan A. Phillips,William R Proctor,Radhakrishna Sura,Terry R. Van Vleet,David E. Watson,Yvonne Will,Danilo A. Tagle,Brian R. Berridge +19 more
TL;DR: A strategic roadmap is outlined to unite innovators and end users thus making implementation smooth and rapid of tissue chip technology adoption and ensuring success will be delivered by a partnership approach as well as a deep understanding of the context within which these chips will actually be used.