VCA supercooling in a swine partial hindlimb model

Publication date

2024-06-01

Authors

Berkane, Yanis
Filz von Reiterdank, Irina
Tawa, Pierre
Charlès, Laura
Goutard, Marion
Dinicu, Antonia T.
Toner, Mehmet
Bertheuil, Nicolas
Mink van der Molen, ABORCID 0000-0002-9747-4370ISNI 000000038976544X
Coert, J Henk

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Abstract

Vascularized composite allotransplantations are complex procedures with substantial functional impact on patients. Extended preservation of VCAs is of major importance in advancing this field. It would result in improved donor-recipient matching as well as the potential for ex vivo manipulation with gene and cell therapies. Moreover, it would make logistically feasible immune tolerance induction protocols through mixed chimerism. Supercooling techniques have shown promising results in multi-day liver preservation. It consists of reaching sub-zero temperatures while preventing ice formation within the graft by using various cryoprotective agents. By drastically decreasing the cell metabolism and need for oxygen and nutrients, supercooling allows extended preservation and recovery with lower ischemia–reperfusion injuries. This study is the first to demonstrate the supercooling of a large animal model of VCA. Porcine hindlimbs underwent 48 h of preservation at − 5 °C followed by recovery and normothermic machine perfusion assessment, with no issues in ice formation and favorable levels of injury markers. Our findings provide valuable preliminary results, suggesting a promising future for extended VCA preservation.

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Citation

Berkane, Y, Filz von Reiterdank, I, Tawa, P, Charlès, L, Goutard, M, Dinicu, A T, Toner, M, Bertheuil, N, Mink van der Molen, A B, Coert, J H, Lellouch, A G, Randolph, M A, Cetrulo, C L & Uygun, K 2024, 'VCA supercooling in a swine partial hindlimb model', Scientific Reports, vol. 14, no. 1, 12618. https://doi.org/10.1038/s41598-024-63041-8