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玻璃化冷冻保存和纳米复温完整大鼠肝脏

Cryopreservation of Whole Rat Livers by Vitrification and Nanowarming.

机构信息

Department of Mechanical Engineering, University of Minnesota, Minneapolis, MN, 55455, USA.

Department of Mechanical Engineering and Engineering Science, University of North Carolina, Charlotte, NC, 28223, USA.

出版信息

Ann Biomed Eng. 2023 Mar;51(3):566-577. doi: 10.1007/s10439-022-03064-2. Epub 2022 Oct 1.

Abstract

Liver cryopreservation has the potential to enable indefinite organ banking. This study investigated vitrification-the ice-free cryopreservation of livers in a glass-like state-as a promising alternative to conventional cryopreservation, which uniformly fails due to damage from ice formation or cracking. Our unique "nanowarming" technology, which involves perfusing biospecimens with cryoprotective agents (CPAs) and silica-coated iron oxide nanoparticles (sIONPs) and then, after vitrification, exciting the nanoparticles via radiofrequency waves, enables rewarming of vitrified specimens fast enough to avoid ice formation and uniformly enough to prevent cracking from thermal stresses, thereby addressing the two main failures of conventional cryopreservation. This study demonstrates the ability to load rat livers with both CPA and sIONPs by vascular perfusion, cool them rapidly to an ice-free vitrified state, and rapidly and homogenously rewarm them. While there was some elevation of liver enzymes (Alanine Aminotransferase) and impaired indocyanine green (ICG) excretion, the nanowarmed livers were viable, maintained normal tissue architecture, had preserved vascular endothelium, and demonstrated hepatocyte and organ-level function, including production of bile and hepatocyte uptake of ICG during normothermic reperfusion. These findings suggest that cryopreservation of whole livers via vitrification and nanowarming has the potential to achieve organ banking for transplant and other biomedical applications.

摘要

肝脏冷冻保存具有实现无限期器官库的潜力。本研究调查了玻璃化-无冰冷冻保存肝脏的状态-作为传统冷冻保存的有前途的替代方法,传统冷冻保存由于冰形成或破裂而普遍失败。我们独特的“纳米加热”技术,涉及用冷冻保护剂(CPAs)和涂有硅的氧化铁纳米颗粒(sIONP)灌注生物样本,然后在玻璃化后通过射频波激发纳米颗粒,使玻璃化样本快速升温,足以避免冰的形成,并均匀升温以防止热应力引起的破裂,从而解决了传统冷冻保存的两个主要失败问题。本研究证明了通过血管灌注向大鼠肝脏加载 CPA 和 sIONP 的能力,将其快速冷却至无冰玻璃化状态,并快速均匀地升温。虽然肝脏酶(丙氨酸氨基转移酶)升高和靛氰绿(ICG)排泄受损,但纳米加热的肝脏仍具有活力,保持正常的组织结构,保留了血管内皮,并显示出肝细胞和器官水平的功能,包括在正常体温再灌注期间产生胆汁和肝细胞摄取 ICG。这些发现表明,通过玻璃化和纳米加热冷冻保存整个肝脏有可能实现移植和其他生物医学应用的器官库。

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本文引用的文献

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Vitrification and Rewarming of Magnetic Nanoparticle-Loaded Rat Hearts.
Adv Mater Technol. 2022 Mar;7(3). doi: 10.1002/admt.202100873. Epub 2021 Oct 1.
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