生物磷灰石晶体结构特征及特性观察。7. 人牙、骨晶体晶格缺陷的观察II。

T Ichijo, Y Yamashita, T Terashima
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引用次数: 0

摘要

在一系列研究生物晶体结构特征的研究中,如牙齿和骨骼,我们使用电子显微镜,在近原子分辨率下检查了人类牙釉质、牙本质和骨晶体的超微结构,并通过牙釉质、牙本质和骨晶体的横切面和纵切面显示了羟基磷灰石结构的构型。随后,根据我们对牙齿和骨晶体超微结构的观察结果,我们试图从形态学的角度阐明由人牙釉质、牙本质和骨晶体组成的羟基磷灰石结构中晶格缺陷的基本结构特征和特征。因此,使用相同的方法,我们检查了正常人类牙釉质、牙本质和骨晶体晶格缺陷的图像。在这篇报道中,继之前观察到点缺陷结构上的晶格缺陷和晶体内部结构中出现的位错之后,我们描述了用同样的方法从人类牙釉质、牙本质和骨晶体的切片中获得的面缺陷结构的图像,如层错、晶界等。本研究使用的材料是人的牙釉质、牙本质和骨晶体。用常规方法将材料的小立方体固定在戊二醛和四氧化二锇中,并包埋在环氧树脂中。超薄切片用金刚石刀切割,不脱钙。用日立H-800 H和H-9000型透射电子显微镜分别在200 kV和300 kV下对切片进行检测。每个晶体在初始放大30万倍和最终放大1000万倍以上时被观察到。我们真诚地相信,本报告中所显示的电子显微照片是第一个以接近原子分辨率显示从人类牙釉质,牙本质和骨组织组成的羟基磷灰石晶体中获得的晶格缺陷的图像,例如晶界,层错等。
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Observations on structural features and characteristics of biological apatite crystals. 7. Observation on lattice imperfection of human tooth and bone crystals II.

In a series of studies to investigate the structural features of the biological crystal, such as the tooth and bone, using an electron microscope, we examined the ultrastructure of the human enamel, dentin, and bone crystals at near atomic resolution and showed the configuration of the hydroxyapatite structure through the cross and longitudinal sections of the enamel, dentin, and bone crystals. Subsequently, based on the results of our observations of the ultrastructure of the tooth and bone crystals, we attempted to clarify the essential structural features and characteristics of the lattice imperfections in the hydroxyapatite structure composing of the human enamel, dentin, and bone crystals from the morphological viewpoint. Therefore, using the same approach, we examined the images of the lattice imperfection of the normal human enamel, dentin, and bone crystals. In this report, following the previous observation of the lattice imperfection on the point defect structure and the dislocations appearing in the inner structure of the crystal, we describe the image of the face defect structure obtained by using the same approach from the sections of the human enamel, dentin, and bone crystals, such as the stacking fault, grain boundary, and others. The materials used for this study were the human enamel, dentin, and bone crystals. The small cubes of the material were fixed in glutaraldehyde and osmium tetroxide and embedded in epoxy resin using the routine methods. The ultrathin sections were cut with a diamond knife without decalcification. The sections were examined with the HITACHI H-800 H and H-9000 type transmission electron microscopes operated at 200 kV and 300 kV respectively. Each crystal was observed at an initial magnification of 300,000 times and at a final magnification of 10,000,000 times and over. We sincerely believe that the electron micrographs shown in this report are the first to show the images of the lattice imperfections from the sections obtained from the hydroxyapatite crystal composing of the human enamel, dentin, and bone tissue, such as the grain boundary, stacking fault, and others, at near atomic resolution.

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