Overcoming the Roadblocks to Cardiac Cell Therapy Using Tissue Engineering

Mounica Yanamandala; Wuqiang Zhu; Daniel J. Garry; Timothy J. Kamp; Joshua M. Hare; Ho wook Jun; Young sup Yoon; Nenad Bursac; Sumanth D. Prabhu; Gerald W. Dorn; Roberto Bolli; Richard N. Kitsis; Jianyi Zhang

doi:10.1016/j.jacc.2017.06.012

Overcoming the Roadblocks to Cardiac Cell Therapy Using Tissue Engineering

Mounica Yanamandala, Wuqiang Zhu, Daniel J. Garry, Timothy J. Kamp, Joshua M. Hare, Ho wook Jun, Young sup Yoon, Nenad Bursac, Sumanth D. Prabhu, Gerald W. Dorn, Roberto Bolli, Richard N. Kitsis, Jianyi Zhang

Medicine

Research output: Contribution to journal › Review article › peer-review

80 Scopus citations

Abstract

Transplantations of various stem cells or their progeny have repeatedly improved cardiac performance in animal models of myocardial injury; however, the benefits observed in clinical trials have been generally less consistent. Some of the recognized challenges are poor engraftment of implanted cells and, in the case of human cardiomyocytes, functional immaturity and lack of electrical integration, leading to limited contribution to the heart's contractile activity and increased arrhythmogenic risks. Advances in tissue and genetic engineering techniques are expected to improve the survival and integration of transplanted cells, and to support structural, functional, and bioenergetic recovery of the recipient hearts. Specifically, application of a prefabricated cardiac tissue patch to prevent dilation and to improve pumping efficiency of the infarcted heart offers a promising strategy for making stem cell therapy a clinical reality.

Original language	English (US)
Pages (from-to)	766-775
Number of pages	10
Journal	Journal of the American College of Cardiology
Volume	70
Issue number	6
DOIs	https://doi.org/10.1016/j.jacc.2017.06.012
State	Published - Aug 8 2017

Keywords

biocompatible materials
heart failure
myocardial infarction
myocardium
stem cells

ASJC Scopus subject areas

Cardiology and Cardiovascular Medicine

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10.1016/j.jacc.2017.06.012

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title = "Overcoming the Roadblocks to Cardiac Cell Therapy Using Tissue Engineering",

abstract = "Transplantations of various stem cells or their progeny have repeatedly improved cardiac performance in animal models of myocardial injury; however, the benefits observed in clinical trials have been generally less consistent. Some of the recognized challenges are poor engraftment of implanted cells and, in the case of human cardiomyocytes, functional immaturity and lack of electrical integration, leading to limited contribution to the heart's contractile activity and increased arrhythmogenic risks. Advances in tissue and genetic engineering techniques are expected to improve the survival and integration of transplanted cells, and to support structural, functional, and bioenergetic recovery of the recipient hearts. Specifically, application of a prefabricated cardiac tissue patch to prevent dilation and to improve pumping efficiency of the infarcted heart offers a promising strategy for making stem cell therapy a clinical reality.",

keywords = "biocompatible materials, heart failure, myocardial infarction, myocardium, stem cells",

author = "Mounica Yanamandala and Wuqiang Zhu and Garry, {Daniel J.} and Kamp, {Timothy J.} and Hare, {Joshua M.} and Jun, {Ho wook} and Yoon, {Young sup} and Nenad Bursac and Prabhu, {Sumanth D.} and Dorn, {Gerald W.} and Roberto Bolli and Kitsis, {Richard N.} and Jianyi Zhang",

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doi = "10.1016/j.jacc.2017.06.012",

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AU - Yanamandala, Mounica

AU - Zhu, Wuqiang

AU - Garry, Daniel J.

AU - Kamp, Timothy J.

AU - Hare, Joshua M.

AU - Jun, Ho wook

AU - Yoon, Young sup

AU - Bursac, Nenad

AU - Prabhu, Sumanth D.

AU - Dorn, Gerald W.

AU - Bolli, Roberto

AU - Kitsis, Richard N.

AU - Zhang, Jianyi

PY - 2017/8/8

Y1 - 2017/8/8

N2 - Transplantations of various stem cells or their progeny have repeatedly improved cardiac performance in animal models of myocardial injury; however, the benefits observed in clinical trials have been generally less consistent. Some of the recognized challenges are poor engraftment of implanted cells and, in the case of human cardiomyocytes, functional immaturity and lack of electrical integration, leading to limited contribution to the heart's contractile activity and increased arrhythmogenic risks. Advances in tissue and genetic engineering techniques are expected to improve the survival and integration of transplanted cells, and to support structural, functional, and bioenergetic recovery of the recipient hearts. Specifically, application of a prefabricated cardiac tissue patch to prevent dilation and to improve pumping efficiency of the infarcted heart offers a promising strategy for making stem cell therapy a clinical reality.

AB - Transplantations of various stem cells or their progeny have repeatedly improved cardiac performance in animal models of myocardial injury; however, the benefits observed in clinical trials have been generally less consistent. Some of the recognized challenges are poor engraftment of implanted cells and, in the case of human cardiomyocytes, functional immaturity and lack of electrical integration, leading to limited contribution to the heart's contractile activity and increased arrhythmogenic risks. Advances in tissue and genetic engineering techniques are expected to improve the survival and integration of transplanted cells, and to support structural, functional, and bioenergetic recovery of the recipient hearts. Specifically, application of a prefabricated cardiac tissue patch to prevent dilation and to improve pumping efficiency of the infarcted heart offers a promising strategy for making stem cell therapy a clinical reality.

KW - biocompatible materials

KW - heart failure

KW - myocardial infarction

KW - myocardium

KW - stem cells

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JO - Journal of the American College of Cardiology

JF - Journal of the American College of Cardiology

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Overcoming the Roadblocks to Cardiac Cell Therapy Using Tissue Engineering

Abstract

Keywords

ASJC Scopus subject areas

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