升量级冷冻保护剂体积下的物理玻璃化和纳米升温：迈向器官冷冻保存

Physical vitrification and nanowarming at liter-scale CPA volumes: toward organ cryopreservation.

作者信息

Gangwar Lakshya, Han Zonghu, Scheithauer Cameron, Namsrai Bat-Erdene, Kantesaria Saurin, Goldstein Rob, Etheridge Michael L, Finger Erik B, Bischof John C

机构信息

Department of Mechanical Engineering, University of Minnesota, Minneapolis, MN, USA.

Department of Surgery, University of Minnesota, Minneapolis, MN, USA.

出版信息

Nat Commun. 2025 Sep 26;16(1):8511. doi: 10.1038/s41467-025-63483-2.

DOI:10.1038/s41467-025-63483-2

PMID:41006284

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12474906/

Abstract

Organ banking via vitrification could transform transplantation, but has never been achieved at human organ scales. This study tested vitrification and rewarming in 0.5-3 L volumes using cryoprotective agents (CPAs): M22, VS55, and 40%EG + 0.6 M Sucrose. Ice formation and cracking was avoided through optimized convective cooling, and successful vitrification was confirmed via visual inspection, thermometry, and X-ray µCT. M22 and EG+sucrose vitrified at 0.5 L, but only M22 succeeded at 3 L; VS55 failed at all volumes. Porcine livers (~0.6-1 L total volume; ~0.23-0.75 L organ volume) were also vitrified using EG+sucrose, though not rewarmed. Future experiments are needed to optimize the protocol and achieve liver rewarming. Using nanowarming with iron-oxide nanoparticles and a newly developed 120 kW RF coil, uniform rewarming was achieved in up to 2 L volumes of M22 at ~88 °C/min. This work serves as a proof-of-concept that human organ scale vitrification and rewarming is physically possible, thereby enabling human organ banking in the future.

摘要

通过玻璃化进行器官保存可能会变革移植领域，但从未在人体器官规模上实现过。本研究使用冷冻保护剂（CPA）：M22、VS55和40%乙二醇+0.6M蔗糖，对0.5 - 3升体积的样本进行了玻璃化和复温测试。通过优化对流冷却避免了结冰和破裂，并通过目视检查、温度测量和X射线显微CT确认了成功的玻璃化。M22和乙二醇+蔗糖在0.5升时实现了玻璃化，但只有M22在3升时成功；VS55在所有体积下均失败。还使用乙二醇+蔗糖对猪肝脏（总体积约0.6 - 1升；器官体积约0.23 - 0.75升）进行了玻璃化处理，但未进行复温。未来需要进行实验来优化方案并实现肝脏复温。使用氧化铁纳米颗粒的纳米复温和新开发的120千瓦射频线圈，在高达2升体积的M22中以约88°C/分钟的速度实现了均匀复温。这项工作证明了人体器官规模的玻璃化和复温在物理上是可行的，从而为未来的人体器官保存提供了可能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/104e/12474906/08835853fb14/41467_2025_63483_Fig1_HTML.jpg

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升量级冷冻保护剂体积下的物理玻璃化和纳米升温：迈向器官冷冻保存

Physical vitrification and nanowarming at liter-scale CPA volumes: toward organ cryopreservation.

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