Cryopreserving the intact intervertebral disc without compromising viability

IF 3.4 3区医学 Q1 ORTHOPEDICS

JOR Spine Pub Date : 2024-08-05 DOI:10.1002/jsp2.1351

Ward Shalash, Ryan Forcier, Adam Z. Higgins, Morgan B. Giers

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Abstract

Background

Tissue cryopreservation requires saturation of the structure with cryoprotectants (CPAs) that are also toxic to cells within a short timeframe unless frozen. The race between CPA delivery and cell death is the main barrier to realizing transplantation banks that can indefinitely preserve tissues and organs. Unrealistic cost and urgency leaves less life-threatening ailments unable to capitalize on traditional organ transplantation systems that immediately match and transport unfrozen organs. For instance, human intervertebral discs (IVD) could be transplanted to treat back pain or used as ex vivo models for studying regenerative therapies, but both face logistical hurdles in organ acquisition and transport. Here we aimed to overcome those challenges by cryopreserving intact IVDs using compressive loading and swelling to accelerate CPA delivery.

Methods

CPAs were tested on bovine nucleus pulposus cells to determine the least cytotoxic solution. Capitalizing on our CPAs Computed Tomography (CT) contrast enhancement, we imaged and quantified saturation time in intact bovine IVDs under different conditions in a bioreactor. Finally, the entire protocol was tested, including 1 week of frozen storage, to confirm tissue viability in multiple IVD regions after thawing.

Results

Results showed cryopreserving medium containing dimethyl sulfoxide and ethylene glycol gave over 7.5 h before cytotoxicity. While non-loaded IVDs required over 3 days to fully saturate, a dynamic loading protocol followed by CPA addition and free-swelling decreased saturation time to <5 h. After cryopreserving IVDs for 1 week with the optimized CPA and permeation method, all IVD regions had 85% cell viability, not significantly different from fresh unfrozen controls.

Conclusions

This study created a novel solution to a roadblock in IVD research and development. Using post-compression swelling CPA can be delivered to an intact IVD over 20× more quickly than previous methods, enabling cryopreservation of the IVD with no detectable loss in cell viability.

Abstract Image

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冷冻保存完整的椎间盘，同时不影响其存活能力。

背景：组织冷冻保存需要用冷冻保护剂（CPAs）使组织结构达到饱和，除非冷冻，否则这些保护剂在短时间内也会对细胞产生毒性。CPA 给药与细胞死亡之间的竞争是实现可无限期保存组织和器官的移植库的主要障碍。不现实的成本和紧迫性使得生命威胁较小的疾病无法利用传统的器官移植系统，因为传统的器官移植系统可以立即匹配和运输未冷冻的器官。例如，人类椎间盘（IVD）可以通过移植来治疗背痛，或用作研究再生疗法的体外模型，但两者都面临器官获取和运输方面的后勤障碍。在此，我们旨在通过冷冻保存完整的 IVD，利用压缩加载和膨胀来加速 CPA 的输送，从而克服这些挑战：方法：在牛髓核细胞上测试 CPA，以确定细胞毒性最小的解决方案。利用 CPA 的计算机断层扫描（CT）对比增强功能，我们对生物反应器中不同条件下完整牛 IVD 的饱和时间进行了成像和量化。最后，对整个方案进行了测试，包括一周的冷冻储存，以确认解冻后多个 IVD 区域的组织存活率：结果表明，含有二甲亚砜和乙二醇的冷冻保存介质可在 7.5 小时后产生细胞毒性。未加载的 IVD 需要 3 天以上才能完全饱和，而动态加载方案在添加 CPA 和自由膨胀后，饱和时间缩短至结论：这项研究为解决 IVD 研发中的一个难题提供了新的解决方案。利用压缩后溶胀法将 CPA 运送到完整的 IVD 的速度比以前的方法快 20 倍以上，从而实现了 IVD 的冷冻保存，而且细胞活力不会出现可检测到的损失。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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