Next-generation tissue-engineered heart valves with repair, remodelling and regeneration capacity

Emanuela S Fioretta^#¹, Sarah E Motta^#^{1

2

3}, Valentina Lintas², Sandra Loerakker^{4

5}, Kevin K Parker³, Frank P T Baaijens⁴, Volkmar Falk^{6

7

8

9}, Simon P Hoerstrup^{1

2}, Maximilian Y Emmert^{10

11

12

13}

Affiliations

¹ Institute for Regenerative Medicine, University of Zurich, Zurich, Switzerland.
² Wyss Translational Center Zurich, University of Zurich and ETH Zurich, Zurich, Switzerland.
³ Disease Biophysics Group, John A. Paulson School of Engineering and Applied Sciences, Harvard University, Cambridge, MA, USA.
⁴ Department of Biomedical Engineering, Eindhoven University of Technology, Eindhoven, Netherlands.
⁵ Institute for Complex Molecular Systems, Eindhoven University of Technology, Eindhoven, Netherlands.
⁶ Department of Cardiovascular Surgery, Charité Universitätsmedizin Berlin, Berlin, Germany.
⁷ Department of Health Sciences and Technology, Swiss Federal Institute of Technology in Zurich, Zurich, Switzerland.
⁸ Department of Cardiothoracic and Vascular Surgery, German Heart Center Berlin, Berlin, Germany.
⁹ German Center of Cardiovascular Research, Partner Site Berlin, Berlin, Germany.
¹⁰ Institute for Regenerative Medicine, University of Zurich, Zurich, Switzerland. maximilian.emmert@irem.uzh.ch.
¹¹ Wyss Translational Center Zurich, University of Zurich and ETH Zurich, Zurich, Switzerland. maximilian.emmert@irem.uzh.ch.
¹² Department of Cardiovascular Surgery, Charité Universitätsmedizin Berlin, Berlin, Germany. maximilian.emmert@irem.uzh.ch.
¹³ Department of Cardiothoracic and Vascular Surgery, German Heart Center Berlin, Berlin, Germany. maximilian.emmert@irem.uzh.ch.

^# Contributed equally.

PMID: 32908285
DOI: 10.1038/s41569-020-0422-8

Review

Next-generation tissue-engineered heart valves with repair, remodelling and regeneration capacity

Emanuela S Fioretta et al. Nat Rev Cardiol. 2021 Feb.

. 2021 Feb;18(2):92-116.

doi: 10.1038/s41569-020-0422-8. Epub 2020 Sep 9.

Authors

Affiliations

¹ Institute for Regenerative Medicine, University of Zurich, Zurich, Switzerland.
² Wyss Translational Center Zurich, University of Zurich and ETH Zurich, Zurich, Switzerland.
³ Disease Biophysics Group, John A. Paulson School of Engineering and Applied Sciences, Harvard University, Cambridge, MA, USA.
⁴ Department of Biomedical Engineering, Eindhoven University of Technology, Eindhoven, Netherlands.
⁵ Institute for Complex Molecular Systems, Eindhoven University of Technology, Eindhoven, Netherlands.
⁶ Department of Cardiovascular Surgery, Charité Universitätsmedizin Berlin, Berlin, Germany.
⁷ Department of Health Sciences and Technology, Swiss Federal Institute of Technology in Zurich, Zurich, Switzerland.
⁸ Department of Cardiothoracic and Vascular Surgery, German Heart Center Berlin, Berlin, Germany.
⁹ German Center of Cardiovascular Research, Partner Site Berlin, Berlin, Germany.
¹⁰ Institute for Regenerative Medicine, University of Zurich, Zurich, Switzerland. maximilian.emmert@irem.uzh.ch.
¹¹ Wyss Translational Center Zurich, University of Zurich and ETH Zurich, Zurich, Switzerland. maximilian.emmert@irem.uzh.ch.
¹² Department of Cardiovascular Surgery, Charité Universitätsmedizin Berlin, Berlin, Germany. maximilian.emmert@irem.uzh.ch.
¹³ Department of Cardiothoracic and Vascular Surgery, German Heart Center Berlin, Berlin, Germany. maximilian.emmert@irem.uzh.ch.

^# Contributed equally.

PMID: 32908285
DOI: 10.1038/s41569-020-0422-8

Abstract

Valvular heart disease is a major cause of morbidity and mortality worldwide. Surgical valve repair or replacement has been the standard of care for patients with valvular heart disease for many decades, but transcatheter heart valve therapy has revolutionized the field in the past 15 years. However, despite the tremendous technical evolution of transcatheter heart valves, to date, the clinically available heart valve prostheses for surgical and transcatheter replacement have considerable limitations. The design of next-generation tissue-engineered heart valves (TEHVs) with repair, remodelling and regenerative capacity can address these limitations, and TEHVs could become a promising therapeutic alternative for patients with valvular disease. In this Review, we present a comprehensive overview of current clinically adopted heart valve replacement options, with a focus on transcatheter prostheses. We discuss the various concepts of heart valve tissue engineering underlying the design of next-generation TEHVs, focusing on off-the-shelf technologies. We also summarize the latest preclinical and clinical evidence for the use of these TEHVs and describe the current scientific, regulatory and clinical challenges associated with the safe and broad clinical translation of this technology.

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References

1. Baumgartner, H. et al. 2017 ESC/EACTS Guidelines for the management of valvular heart disease. Eur. Heart J. 38, 2739–2786 (2017). - PubMed
1. Schoen, F. J. & Gotlieb, A. I. Heart valve health, disease, replacement, and repair: a 25-year cardiovascular pathology perspective. Cardiovasc. Pathol. 25, 341–352 (2016). - PubMed
1. Schoen, F. J. Morphology, clinicopathologic correlations, and mechanisms in heart valve health and disease. Cardiovasc. Eng. Technol. 9, 126–140 (2018). - PubMed
1. Patterson, J. T. et al. Tissue-engineered vascular grafts for use in the treatment of congenital heart disease: from the bench to the clinic and back again. Regen. Med. 7, 409–419 (2012). - PubMed - PMC
1. Alsoufi, B., Cheung, D. Y., Duan, B. & Butcher, J. T. Current progress in tissue engineering of heart valves: multiscale problems, multiscale solutions. Expert Opin. Biol. Ther. 15, 1155–1172 (2015).

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Next-generation tissue-engineered heart valves with repair, remodelling and regeneration capacity

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Next-generation tissue-engineered heart valves with repair, remodelling and regeneration capacity

Authors

Affiliations

Abstract

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LinkOut - more resources

Full Text Sources

Medical

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