制备冷冻脑切片过程中不同脱水方法的实验研究

Ibrain Pub Date : 2022-11-29 DOI:10.1002/ibra.12075
Hong-Su Zhou, Jing Li, Yi-Huan Guan, Hua He, Li-Ren Huang Fu
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引用次数: 0

摘要

本研究旨在为大鼠脑冷冻切片的制备提供一个值得推荐的方案,以减少和避免冰晶的产生。我们设计了五种不同的脱水方案(方案 1:用 15%、20% 和 30%的蔗糖-磷酸盐缓冲盐溶液脱水;方案 2:20%蔗糖和 30%蔗糖;方案 3:30%蔗糖;方案 4:10%、20% 和 30%蔗糖;以及方案 5:用 15%和 30%的蔗糖聚乙酸盐 I 对组织进行脱水,直至其沉入底部,然后放入 30%的蔗糖聚乙酸盐 II 中),以尽量减少冰晶的形成。用 Nissl 染色法对不同方案的冰冻切片进行染色,并通过细胞间密度和组织间距进行比较。从方案 1 到方案 5,脱水过程所需的时间分别为 24、23、24、24 和 33 小时。从方案 1 到方案 5,细胞间密度逐渐减小,根据 Nissl 染色图像,不同方案的组织间距有差异且不规则。我们推荐采用方案 4 的脱水方法(将脑组织依次浸泡在 10%、20%和 30%的蔗糖溶液中脱水,直至组织样本完全浸泡在溶液中,然后再浸泡到下一个浓度的溶液中脱水)。
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Experimental study of different dehydration methods in the process of preparing frozen brain sections

This study aimed to provide a recommendable protocol for the preparation of brain cryosections of rats to reduce and avoid ice crystals. We have designed five different dewatering solutions (Scheme 1: dehydrate with 15%, 20%, and 30% sucrose–phosphate-buffered saline solution; Scheme 2: 20% sucrose and 30% sucrose; Scheme 3: 30% sucrose; Scheme 4: 10%, 20%, and 30% sucrose; and Scheme 5: the tissue was dehydrated with 15% and 30% sucrose polyacetate I until it sank to the bottom, followed by placement in 30% sucrose polyacetate II) to minimize the formation of ice crystals. Cryosections from different protocols were stained with Nissl staining and compared with each other by density between cells and the distance of intertissue spaces. The time required for the dehydration process from Scheme 1 to Scheme 5 was 24, 23, 24, 24, and 33 h, respectively. Density between cells gradually decreased from Scheme 1 to Scheme 5, and the distance of intertissue spaces was differentiated and irregular in different schemes according to the images of Nissl staining. We recommend the dewatering method of Scheme 4 (the brain tissues were dehydrated in 10%, 20% and 30% sucrose solution in turn until the tissue samples were completely immersed in the solution and then immersed in the next concentration solution for dehydration).

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