Vitreous tissue cryopreservation using a blood vessel model and cryomacroscopy for scale-up studies: Observations and mathematical modeling

IF 2.3 3区 生物学 Q2 BIOLOGY Cryobiology Pub Date : 2024-11-07 DOI:10.1016/j.cryobiol.2024.104976
Michael J. Taylor , Prem K. Solanki , Zhenzhen Chen , Simona Baicu , Christina Crossley , Elizabeth D. Greene , Lia H. Campbell , Kelvin G.M. Brockbank , Yoed Rabin
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Abstract

Successful long-term cryobanking of multicellular tissues and organs at deep subzero temperatures calls for the avoidance of ice cryoinjury by reliance upon ice-free cryopreservation techniques. However, the quality of the cryopreserved material is the direct result of its ability to survive a host of harmful mechanisms, chief among which is overcoming the trifecta effects of ice crystallization, toxicity, and mechanical stress. This study aims at exploring improved conditions to scale-up ice-free cryopreservation by combining DP6 as a base cryoprotective agent (CPA) solution with an array of synthetic ice modulators (SIMs). This study is conducted by integrating cryomacroscopy techniques, thermal modeling, solid mechanics analysis, and viability and contractility investigation to correlate physical effects, thermal outcomes, and cryobiology results. As an extension of previous work, this study aims at scale-up of established baseline blood vessel models, while comparing the relative toxicity and vitreous stability of 4 ml and 10 ml samples of DP6 containing either sucrose as a SIM, or the commercial synthetic ice blockers (X1000 and Z1000). Using that established protocol, the addition and removal of DP6+0.6M sucrose and DP6 + 1% X1000 + 1% Z1000 were both well tolerated in rabbit carotid and pig femoral artery models, when assessed for metabolic recovery and contractility. Using cryomacroscopy, it was demonstrated that DP6 + 0.6M sucrose provided a stable vitrification medium under marginal cooling and warming conditions that resulted in >50% survival rate. By contrast, DP6 + 1% X1000 + 1% Z1000 was subject to visible ice formation during cooling under the same thermal conditions, resulting in a significantly lower recovery of ∼20%. Thermal modeling is used in this study to verify the actual cooling and rewarming rates in the specimens, while thermomechanics analysis is used to explain why fractures were observed using cryomacroscopy when the specimens were contained in glass vials but not in plastic vials.
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使用血管模型和冷冻显微镜进行玻璃体组织冷冻以扩大研究:观察和数学建模。
要在零度以下的低温条件下成功地对多细胞组织和器官进行长期冷冻保存,就必须依靠无冰冷冻保存技术来避免冰冻伤害。然而,低温保存材料的质量直接取决于其在一系列有害机制中的生存能力,其中最主要的是克服冰结晶、毒性和机械应力的三重影响。本研究旨在通过将 DP6 作为基础低温保护剂(CPA)溶液与一系列合成冰调节剂(SIMs)相结合,探索扩大无冰低温保存规模的改进条件。这项研究通过整合冷冻显微镜技术、热建模、固体力学分析以及存活率和收缩率调查,将物理效应、热结果和低温生物学结果联系起来。作为先前工作的延伸,本研究旨在扩大已建立的基线血管模型,同时比较 4 毫升和 10 毫升 DP6 样品的相对毒性和玻璃体稳定性,这两种样品分别含有作为 SIM 的蔗糖或商用合成冰块(X1000 和 Z1000)。在兔颈动脉和猪股动脉模型中,使用该既定方案评估代谢恢复和收缩能力时,DP6+0.6M蔗糖和DP6+1%X1000+1%Z1000的添加和移除均具有良好的耐受性。冷冻显微镜显示,DP6+0.6M 蔗糖可在边际冷却和升温条件下提供稳定的玻璃化培养基,使存活率大于 50%。相比之下,在相同的热条件下,DP6+1%X1000+1%Z1000 在冷却过程中会形成明显的冰,导致存活率明显降低,仅为 20%。本研究中使用热建模来验证试样的实际冷却和回温率,同时使用热力学分析来解释为什么试样装在玻璃瓶中而不装在塑料瓶中时,使用冷冻显微镜可以观察到断裂。
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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来源期刊
Cryobiology
Cryobiology 生物-生理学
CiteScore
5.40
自引率
7.40%
发文量
71
审稿时长
56 days
期刊介绍: Cryobiology: International Journal of Low Temperature Biology and Medicine publishes research articles on all aspects of low temperature biology and medicine. Research Areas include: • Cryoprotective additives and their pharmacological actions • Cryosurgery • Freeze-drying • Freezing • Frost hardiness in plants • Hibernation • Hypothermia • Medical applications of reduced temperature • Perfusion of organs • All pertinent methodologies Cryobiology is the official journal of the Society for Cryobiology.
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