Peitao Wang, Z. Shu, Liqun He, Yuzhen Wang, X. Cui, Jianping Yu, Junfeng Lu, D. Gao
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引用次数: 4
摘要
为了在移植或搭桥手术中使用冷冻保存动脉的新技术已经被开发出来。在我们的实验中,将兔颈动脉冷冻保存在含有1.5 M 1,2-丙二醇(PROH)的冷冻保护介质中。冷冻动脉在液氮中保存10天以上后,放入液氮中预冷的冰袋中缓慢解冻,以防止热应力和断裂。新鲜类胡萝卜素作为正常对照。分别培养新鲜动脉和冷冻动脉。观察平滑肌细胞(SMCs)的生长、内皮细胞(ECs)的发育、颈动脉壁(弹性片层或纤维)的完整性以及动脉的力学性能(弹性模量和断裂强度)。结果表明,SMCs在低温保存下存活。冷冻保存动脉的SMCs与新鲜动脉的SMCs再生所需的时间大致相同(~ 24-36小时)。冷冻保存后,只有一小部分
The Viability, Structure, and Mechanical Properties of Cryopreserved Rabbit Carotid Artery
New techniques have been developed for cryopreservation of arteries for use in transplantations or bypass surgery. In our experiments, rabbit carotid arteries were cryopreserved in a cryoprotective medium containing 1.5 M 1,2- propanediol (PROH). After storage in liquid nitrogen for over 10 days, the frozen arteries were thawed slowly in an ice bag that had been pre-cooled in liquid nitrogen to prevent thermal stress and fracture. Fresh carotids were used as normal controls. The fresh and cryopreserved arteries were cultured. The growth of smooth muscle cells (SMCs), the development of endothelial cells (ECs), the integrity of carotid walls (the elastic lamellae or fibers), and the mechanical properties of arteries (elastic modulus and fracture strength) were investigated. The results showed that SMCs survived cryopreservation. It took approximately the same amount of time (∼24–36 h) for the SMCs of cryopreserved arteries to regenerate as those of the fresh arteries. After cryopreservation, only a small n...
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