人类同种异体肌腱长期保存最佳冷冻保护剂的选择

A. A. Budaev, N. Borovkova, A. M. Fayn, M. Makarov, M. V. Storozheva, Y. Andreev, A. Mironov
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引用次数: 0

摘要

介绍。肌腱移植在重建整形手术中有着广泛的应用。同种异体肌腱有许多潜在的优势。然而,同种异体肌腱的长期储存方法至今尚未得到优化。选择超低温保存人同种异体肌腱的最佳冷冻保护剂,以保留原有的组织结构。材料和方法。我们研究了取自组织供体的胫骨前支肌腱移植物。在冷冻保存过程中使用细胞内/穿透性冷冻保护剂(二甲基亚砜、聚乙二醇-400、甘油)和细胞外/非穿透性冷冻保护剂(葡萄糖溶液、白蛋白溶液)。采用断裂和拉伸-剪切试验评价了肌腱的力学性能,显微镜下观察了肌腱的一般形态、形貌、胶原纤维的致密性和完整性、细胞成分的保存情况。组织学分析表明,胶原蛋白和弹性蛋白纤维的安全性取决于所使用的冷冻保护剂。同时,在所有实验中显微镜下均检测到胶原纤维的微断裂。在二甲亚砜、聚乙二醇-400及其组合存在的情况下,胶原纤维和细胞的结构与对照组相比没有明显的变化,而在所有使用非穿透性冷冻保护剂的实验中,纤维的形貌和取向明显受到干扰,肌腱中许多细胞也观察到变形。基于二甲亚砜,聚乙二醇及其组合的冷冻保护剂使我们能够保持同种异体肌腱的结构完整性。非穿透性冷冻保护剂不能有效保存肌腱中胶原纤维和细胞的完整性,因此不推荐用于冷冻保存。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Selection of an optimal cryoprotectant for long-term storage of human tendon allografts
Introduction. Tendon grafts are widely demanded in reconstructive plastic surgery. Allogeneic tendons potentially have a number of advantages. However, the method of long-term storage of allogeneic tendons has not been optimized to date.Aim. Selection of an optimal cryoprotectant for the storage of human tendon allografts at ultra-low temperatures, which allows preserving the native tissue structure.Material and methods. We studied M. tibialis anterior tendon grafts taken from tissue donors. Endocellular/penetrating cryoprotectants (dimethyl sulfoxide, polyethylene glycol-400, glycerol) and exocellular/non-penetrating cryoprotectants (glucose solution, albumin solution) were used in the cryopreservation process. Tendon mechanical properties were evaluated using rupture and stretching-shear test, the general morphology of tendons, topography, dense and integrity of collagen fibers, preservation of cellular elements were microscopically evaluated.Results. Histological analysis showed that the safety of collagen and elastin fibers differed depending on the cryoprotectant used. At the same time, micro-fractures of collagen fibers were microscopically detected in all the experiments. In the presence of dimethyl sulfoxide, polyethylene glycol-400 and their combination the structure of collagen fibers and cells did not undergo visible changes compared to the control, whereas in all the experiments with non-penetrating cryoprotectants the topography and orientation of the fibers were clearly disturbed, deformation of many cells in the tendons was also observed.Conclusions. Cryoprotectants based on dimethyl sulfoxide, polyethylene glycol and their combinations allowed us to preserve the structural integrity of allogeneic tendons. Non-penetrating cryoprotectants did not effectively preserve the integrity of collagen fibers and cells in the tendons and cannot be recommended for cryopreservation.
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