A Roadmap to Cardiac Tissue-Engineered Construct Preservation: Insights from Cells, Tissues, and Organs

Publication date

2021-07-08

Authors

Sampaio-Pinto, VascoORCID 0000-0002-7129-0493
Janssen, Jasmijn
Chirico, Nino
Serra, Margarida
Alves, Paula M
Doevendans, PieterISNI 0000000110574516
Voets, Ilja K
Sluijter, JoostORCID 0000-0003-2088-9102ISNI 0000000392195257
Van Laake, Linda W.ISNI 0000000392656340
van Mil, AlainORCID 0000-0001-9906-5047ISNI 0000000388487943

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Abstract

Worldwide, over 26 million patients suffer from heart failure (HF). One strategy aspiring to prevent or even to reverse HF is based on the transplantation of cardiac tissue-engineered (cTE) constructs. These patient-specific constructs aim to closely resemble the native myocardium and, upon implantation on the diseased tissue, support and restore cardiac function, thereby preventing the development of HF. However, cTE constructs off-the-shelf availability in the clinical arena critically depends on the development of efficient preservation methodologies. Short- and long-term preservation of cTE constructs would enable transportation and direct availability. Herein, currently available methods, from normothermic- to hypothermic- to cryopreservation, for the preservation of cardiomyocytes, whole-heart, and regenerative materials are reviewed. A theoretical foundation and recommendations for future research on developing cTE construct specific preservation methods are provided. Current research suggests that vitrification can be a promising procedure to ensure long-term cryopreservation of cTE constructs, despite the need of high doses of cytotoxic cryoprotective agents. Instead, short-term cTE construct preservation can be achieved at normothermic or hypothermic temperatures by administration of protective additives. With further tuning of these promising methods, it is anticipated that cTE construct therapy can be brought one step closer to the patient.

Keywords

antifreeze proteins, cardiac tissue engineering, cryopreservation, cryoprotective agents, heart failure, hypothermic and normothermic preservation, vitrification, Mechanics of Materials, Mechanical Engineering, General Materials Science, Review, Journal Article

Citation

Sampaio-Pinto, V, Janssen, J, Chirico, N, Serra, M, Alves, P M, Doevendans, P A, Voets, I K, Sluijter, J P G, van Laake, L W & van Mil, A 2021, 'A Roadmap to Cardiac Tissue-Engineered Construct Preservation : Insights from Cells, Tissues, and Organs', Advanced materials, vol. 33, no. 27, 2008517, pp. 1-24. https://doi.org/10.1002/adma.202008517