Sub-zero non-freezing of vascularized composite allografts in a rodent partial hindlimb model

I. Filz von Reiterdank; P. Tawa; Y. Berkane; E. de Clermont-Tonnerre; A. T. Dinicu; C. Pendexter; M. Goutard; A. G. Lellouch; A. B. Mink van der Molen; J. H. Coert; C. L. Cetrulo; K. Uygun

doi:10.1016/j.cryobiol.2024.104950

Sub-zero non-freezing of vascularized composite allografts in a rodent partial hindlimb model

I. Filz von Reiterdank, P. Tawa, Y. Berkane, E. de Clermont-Tonnerre, A. T. Dinicu, C. Pendexter, M. Goutard, A. G. Lellouch, A. B. Mink van der Molen, J. H. Coert, C. L. Cetrulo, K. Uygun

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Résumé

Ischemia is a major limiting factor in Vascularized Composite Allotransplantation (VCA) as irreversible muscular injury can occur after as early as 4–6 h of static cold storage (SCS). Organ preservation technologies have led to the development of storage protocols extending rat liver ex vivo preservation up to 4 days. Development of such a protocol for VCAs has the added challenge of inherent ice nucleating factors of the graft, therefore, this study focused on developing a robust protocol for VCA supercooling. Rodent partial hindlimbs underwent subnormothermic machine perfusion (SNMP) with several loading solutions, followed by a storage solution with cryoprotective agents (CPA) developed for VCAs. Storage occurred in suspended animation for 24h and VCAs were recovered using SNMP with modified Steen. This study shows a robust VCA supercooling preservation protocol in a rodent model. Further optimization is expected to allow for its application in a transplantation model, which would be a breakthrough in the field of VCA preservation.

langue originale	Anglais
Numéro d'article	104950
journal	Cryobiology
Volume	116
Les DOIs	https://doi.org/10.1016/j.cryobiol.2024.104950
état	Publié - 1 sept. 2024
Modification externe	Oui

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10.1016/j.cryobiol.2024.104950

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Filz von Reiterdank, I., Tawa, P., Berkane, Y., de Clermont-Tonnerre, E., Dinicu, A. T., Pendexter, C., Goutard, M., Lellouch, A. G., Mink van der Molen, A. B., Coert, J. H., Cetrulo, C. L., & Uygun, K. (2024). Sub-zero non-freezing of vascularized composite allografts in a rodent partial hindlimb model. Cryobiology, 116, Article 104950. https://doi.org/10.1016/j.cryobiol.2024.104950

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title = "Sub-zero non-freezing of vascularized composite allografts in a rodent partial hindlimb model",

abstract = "Ischemia is a major limiting factor in Vascularized Composite Allotransplantation (VCA) as irreversible muscular injury can occur after as early as 4–6 h of static cold storage (SCS). Organ preservation technologies have led to the development of storage protocols extending rat liver ex vivo preservation up to 4 days. Development of such a protocol for VCAs has the added challenge of inherent ice nucleating factors of the graft, therefore, this study focused on developing a robust protocol for VCA supercooling. Rodent partial hindlimbs underwent subnormothermic machine perfusion (SNMP) with several loading solutions, followed by a storage solution with cryoprotective agents (CPA) developed for VCAs. Storage occurred in suspended animation for 24h and VCAs were recovered using SNMP with modified Steen. This study shows a robust VCA supercooling preservation protocol in a rodent model. Further optimization is expected to allow for its application in a transplantation model, which would be a breakthrough in the field of VCA preservation.",

keywords = "Preservation, Subzero non-freezing, Supercooling, Vascularized composite allografts",

author = "{Filz von Reiterdank}, I. and P. Tawa and Y. Berkane and {de Clermont-Tonnerre}, E. and Dinicu, {A. T.} and C. Pendexter and M. Goutard and Lellouch, {A. G.} and {Mink van der Molen}, {A. B.} and Coert, {J. H.} and Cetrulo, {C. L.} and K. Uygun",

note = "Publisher Copyright: {\textcopyright} 2024 Society for Cryobiology",

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doi = "10.1016/j.cryobiol.2024.104950",

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AU - Filz von Reiterdank, I.

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AU - Berkane, Y.

AU - de Clermont-Tonnerre, E.

AU - Dinicu, A. T.

AU - Pendexter, C.

AU - Goutard, M.

AU - Lellouch, A. G.

AU - Mink van der Molen, A. B.

AU - Coert, J. H.

AU - Cetrulo, C. L.

AU - Uygun, K.

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N2 - Ischemia is a major limiting factor in Vascularized Composite Allotransplantation (VCA) as irreversible muscular injury can occur after as early as 4–6 h of static cold storage (SCS). Organ preservation technologies have led to the development of storage protocols extending rat liver ex vivo preservation up to 4 days. Development of such a protocol for VCAs has the added challenge of inherent ice nucleating factors of the graft, therefore, this study focused on developing a robust protocol for VCA supercooling. Rodent partial hindlimbs underwent subnormothermic machine perfusion (SNMP) with several loading solutions, followed by a storage solution with cryoprotective agents (CPA) developed for VCAs. Storage occurred in suspended animation for 24h and VCAs were recovered using SNMP with modified Steen. This study shows a robust VCA supercooling preservation protocol in a rodent model. Further optimization is expected to allow for its application in a transplantation model, which would be a breakthrough in the field of VCA preservation.

AB - Ischemia is a major limiting factor in Vascularized Composite Allotransplantation (VCA) as irreversible muscular injury can occur after as early as 4–6 h of static cold storage (SCS). Organ preservation technologies have led to the development of storage protocols extending rat liver ex vivo preservation up to 4 days. Development of such a protocol for VCAs has the added challenge of inherent ice nucleating factors of the graft, therefore, this study focused on developing a robust protocol for VCA supercooling. Rodent partial hindlimbs underwent subnormothermic machine perfusion (SNMP) with several loading solutions, followed by a storage solution with cryoprotective agents (CPA) developed for VCAs. Storage occurred in suspended animation for 24h and VCAs were recovered using SNMP with modified Steen. This study shows a robust VCA supercooling preservation protocol in a rodent model. Further optimization is expected to allow for its application in a transplantation model, which would be a breakthrough in the field of VCA preservation.

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