Long-term repair of porcine articular cartilage using cryopreservable, clinically compatible human embryonic stem cell-derived chondrocytes

Long-term repair of porcine articular cartilage using cryopreservable, clinically compatible human embryonic stem cell-derived chondrocytes

Abstract Osteoarthritis (OA) impacts hundreds of millions of people worldwide, with those affected incurring significant physical and financial burdens. Injuries such as focal defects to the articular surface are a major contributing risk factor for the development of OA. Current cartilage repair st...

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Autores principales: Frank A. Petrigliano, Nancy Q. Liu, Siyoung Lee, Jade Tassey, Arijita Sarkar, Yucheng Lin, Liangliang Li, Yifan Yu, Dawei Geng, Jiankang Zhang, Ruzanna Shkhyan, Jacob Bogdanov, Ben Van Handel, Gabriel B. Ferguson, Youngjoo Lee, Svenja Hinderer, Kuo-Chang Tseng, Aaron Kavanaugh, J. Gage Crump, April D. Pyle, Katja Schenke-Layland, Fabrizio Billi, Liming Wang, Jay Lieberman, Mark Hurtig, Denis Evseenko
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/b8f0ca6279f04f559470bd64f3f242af
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spelling oai:doaj.org-article:b8f0ca6279f04f559470bd64f3f242af2021-11-28T12:38:27ZLong-term repair of porcine articular cartilage using cryopreservable, clinically compatible human embryonic stem cell-derived chondrocytes10.1038/s41536-021-00187-32057-3995https://doaj.org/article/b8f0ca6279f04f559470bd64f3f242af2021-11-01T00:00:00Zhttps://doi.org/10.1038/s41536-021-00187-3https://doaj.org/toc/2057-3995Abstract Osteoarthritis (OA) impacts hundreds of millions of people worldwide, with those affected incurring significant physical and financial burdens. Injuries such as focal defects to the articular surface are a major contributing risk factor for the development of OA. Current cartilage repair strategies are moderately effective at reducing pain but often replace damaged tissue with biomechanically inferior fibrocartilage. Here we describe the development, transcriptomic ontogenetic characterization and quality assessment at the single cell level, as well as the scaled manufacturing of an allogeneic human pluripotent stem cell-derived articular chondrocyte formulation that exhibits long-term functional repair of porcine articular cartilage. These results define a new potential clinical paradigm for articular cartilage repair and mitigation of the associated risk of OA.Frank A. PetriglianoNancy Q. LiuSiyoung LeeJade TasseyArijita SarkarYucheng LinLiangliang LiYifan YuDawei GengJiankang ZhangRuzanna ShkhyanJacob BogdanovBen Van HandelGabriel B. FergusonYoungjoo LeeSvenja HindererKuo-Chang TsengAaron KavanaughJ. Gage CrumpApril D. PyleKatja Schenke-LaylandFabrizio BilliLiming WangJay LiebermanMark HurtigDenis EvseenkoNature PortfolioarticleMedicineRENnpj Regenerative Medicine, Vol 6, Iss 1, Pp 1-14 (2021)
institution DOAJ
collection DOAJ
language EN
topic Medicine
R
spellingShingle Medicine
R
Frank A. Petrigliano
Nancy Q. Liu
Siyoung Lee
Jade Tassey
Arijita Sarkar
Yucheng Lin
Liangliang Li
Yifan Yu
Dawei Geng
Jiankang Zhang
Ruzanna Shkhyan
Jacob Bogdanov
Ben Van Handel
Gabriel B. Ferguson
Youngjoo Lee
Svenja Hinderer
Kuo-Chang Tseng
Aaron Kavanaugh
J. Gage Crump
April D. Pyle
Katja Schenke-Layland
Fabrizio Billi
Liming Wang
Jay Lieberman
Mark Hurtig
Denis Evseenko
Long-term repair of porcine articular cartilage using cryopreservable, clinically compatible human embryonic stem cell-derived chondrocytes
description Abstract Osteoarthritis (OA) impacts hundreds of millions of people worldwide, with those affected incurring significant physical and financial burdens. Injuries such as focal defects to the articular surface are a major contributing risk factor for the development of OA. Current cartilage repair strategies are moderately effective at reducing pain but often replace damaged tissue with biomechanically inferior fibrocartilage. Here we describe the development, transcriptomic ontogenetic characterization and quality assessment at the single cell level, as well as the scaled manufacturing of an allogeneic human pluripotent stem cell-derived articular chondrocyte formulation that exhibits long-term functional repair of porcine articular cartilage. These results define a new potential clinical paradigm for articular cartilage repair and mitigation of the associated risk of OA.
format article
author Frank A. Petrigliano
Nancy Q. Liu
Siyoung Lee
Jade Tassey
Arijita Sarkar
Yucheng Lin
Liangliang Li
Yifan Yu
Dawei Geng
Jiankang Zhang
Ruzanna Shkhyan
Jacob Bogdanov
Ben Van Handel
Gabriel B. Ferguson
Youngjoo Lee
Svenja Hinderer
Kuo-Chang Tseng
Aaron Kavanaugh
J. Gage Crump
April D. Pyle
Katja Schenke-Layland
Fabrizio Billi
Liming Wang
Jay Lieberman
Mark Hurtig
Denis Evseenko
author_facet Frank A. Petrigliano
Nancy Q. Liu
Siyoung Lee
Jade Tassey
Arijita Sarkar
Yucheng Lin
Liangliang Li
Yifan Yu
Dawei Geng
Jiankang Zhang
Ruzanna Shkhyan
Jacob Bogdanov
Ben Van Handel
Gabriel B. Ferguson
Youngjoo Lee
Svenja Hinderer
Kuo-Chang Tseng
Aaron Kavanaugh
J. Gage Crump
April D. Pyle
Katja Schenke-Layland
Fabrizio Billi
Liming Wang
Jay Lieberman
Mark Hurtig
Denis Evseenko
author_sort Frank A. Petrigliano
title Long-term repair of porcine articular cartilage using cryopreservable, clinically compatible human embryonic stem cell-derived chondrocytes
title_short Long-term repair of porcine articular cartilage using cryopreservable, clinically compatible human embryonic stem cell-derived chondrocytes
title_full Long-term repair of porcine articular cartilage using cryopreservable, clinically compatible human embryonic stem cell-derived chondrocytes
title_fullStr Long-term repair of porcine articular cartilage using cryopreservable, clinically compatible human embryonic stem cell-derived chondrocytes
title_full_unstemmed Long-term repair of porcine articular cartilage using cryopreservable, clinically compatible human embryonic stem cell-derived chondrocytes
title_sort long-term repair of porcine articular cartilage using cryopreservable, clinically compatible human embryonic stem cell-derived chondrocytes
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/b8f0ca6279f04f559470bd64f3f242af
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