Ohno Shinichi
Department of Anatomy and Molecular Histology, Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi , 1110 Shimokato, Chuo-City, Yamanashi 409-3898, Japan.
Acta Histochem Cytochem. 2016 Feb 27;49(1):1-6. doi: 10.1267/ahc.15032. Epub 2015 Dec 18.
Recent advances in molecular and genetic techniques have led to establishment of new biomedical fields; however, morphological techniques are still required for a more precise understanding of functioning cells and tissues. Conventional preparation procedures involve a series of chemical fixation, alcohol dehydration, paraffin or epoxy resin embedding, sectioning, and staining steps. In these steps, technical artifacts modify original morphologies of the cells being examined. Furthermore, difficulties are associated with capturing dynamic images in vivo using conventional chemical fixation. Therefore, a quick-freezing (QF) method was introduced for biological specimens in the 20th century. However, specimens have to be resected from living animal organs with blood supply, and their dynamical morphologies have not been investigated in detail using the QF method. In order to overcome these issues, the tissue resection step of organs had to be avoided and samples needed to be frozen under blood circulation. Our in vivo cryotechnique (IVCT) was an original technique to cryofix samples without resecting their tissues. The most significant merit of IVCT is that blood circulation into organs is preserved at the exact moment of freezing, which has been useful for arresting transient physiological processes of cells and tissues and maintaining their components in situ.
分子和基因技术的最新进展催生了新的生物医学领域;然而,为了更精确地理解细胞和组织的功能,形态学技术仍然不可或缺。传统的制备程序包括一系列化学固定、酒精脱水、石蜡或环氧树脂包埋、切片和染色步骤。在这些步骤中,技术假象会改变被检查细胞的原始形态。此外,使用传统化学固定方法在体内获取动态图像也存在困难。因此,20世纪引入了一种针对生物标本的快速冷冻(QF)方法。然而,标本必须从有血液供应的活体动物器官上切除,并且使用QF方法尚未对其动态形态进行详细研究。为了克服这些问题,必须避免器官的组织切除步骤,并且需要在血液循环下对样本进行冷冻。我们的体内冷冻技术(IVCT)是一种无需切除组织即可冷冻固定样本的原创技术。IVCT最显著的优点是在冷冻瞬间能保持器官的血液循环,这对于捕捉细胞和组织的瞬时生理过程并原位保持其成分非常有用。