Supercooling preservation of vascularized composite allografts through CPA optimization, thermal tracking, and stepwise loading techniques

Publication date

2024-12

Authors

Filz von Reiterdank, Irina
Dinicu, A. T.
Rosales, I.
Cetrulo, C. L.
Coert, J Henk
Mink van der Molen, ABORCID 0000-0002-9747-4370ISNI 000000038976544X
Uygun, K.

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Advisors

Supervisors

Document Type

Article

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cc_by

Abstract

Vascularized composite allografts (VCAs) present unique challenges in transplant medicine, owing to their complex structure and vulnerability to ischemic injury. Innovative preservation techniques are crucial for extending the viability of these grafts, from procurement to transplantation. This study addresses these challenges by integrating cryoprotectant agent (CPA) optimization, advanced thermal tracking, and stepwise CPA loading strategies within an ex vivo rodent model. CPA optimization focused on various combinations, identifying those that effectively suppress ice nucleation while mitigating cytotoxicity. Thermal dynamics were monitored using invasive thermocouples and non-invasive FLIR imaging, yielding detailed temperature profiles crucial for managing warm ischemia time and optimizing cooling rates. The efficacy of stepwise CPA loading versus conventional flush protocols demonstrated that stepwise (un)loading significantly improved arterial resistance and weight change outcomes. In summary, this study presents comprehensive advancements in VCA preservation strategies, combining CPA optimization, precise thermal monitoring, and stepwise loading techniques. These findings hold potential implications for refining transplantation protocols and improving graft viability in VCA transplantation.

Keywords

CPA, FLIR, Preservation, Subzero non-freezing, Supercooling, Thermal, Vascularized Composite allografts, General

Citation

Filz von Reiterdank, I, Dinicu, A T, Rosales, I, Cetrulo, C L, Coert, J H, Mink van der Molen, A B & Uygun, K 2024, 'Supercooling preservation of vascularized composite allografts through CPA optimization, thermal tracking, and stepwise loading techniques', Scientific Reports, vol. 14, no. 1, 22339. https://doi.org/10.1038/s41598-024-73549-8