Bonsib S M, Plattner S B
Ultrastruct Pathol. 1986;10(6):497-504. doi: 10.3109/01913128609007207.
Two human renal biopsies containing glomerular amyloid deposits organized into spicular formations (spicular amyloid) were studied by scanning electron microscopy following removal of the cellular components (acellular SEM). Following SEM studies, portions of the same acellular tissue were embedded in paraffin and plastic for light microscopy and transmission electron microscopy, respectively. Spicular deposits by acellular SEM appear as tapering conical formations interconnected by a delicate branching network of fibrils, which imparts a higher degree of organization than previously appreciated by two-dimensional LM and TEM. Silver stains of paraffin- and plastic-embedded acellular tissue showed persistence of argyrophilia in spicular deposits, while acellular TEM showed that the spicules appeared comprised "purely" of amyloid fibrils without visible contaminating material. We conclude that the argyrophilia of spicular amyloid is an inherent feature of the parallel organization of fibrils rather than a result of incorporation of glomerular basement membrane or cell components and that spicular amyloid deposits have a higher degree of organization than is apparent by two-dimensional studies.
通过去除细胞成分后的扫描电子显微镜(无细胞扫描电镜)对两份含有呈针状结构排列的肾小球淀粉样沉积物(针状淀粉样蛋白)的人类肾活检组织进行了研究。在扫描电镜研究之后,将相同无细胞组织的部分分别嵌入石蜡和塑料中,用于光学显微镜和透射电子显微镜检查。无细胞扫描电镜下的针状沉积物表现为逐渐变细的锥形结构,由纤细的分支纤维网络相互连接,这赋予了比二维光学显微镜和透射电子显微镜先前认识到的更高程度的组织结构。对石蜡包埋和塑料包埋的无细胞组织进行银染色显示,针状沉积物中嗜银性持续存在,而无细胞透射电子显微镜显示针状体似乎“纯粹”由淀粉样纤维组成,没有可见的污染物质。我们得出结论,针状淀粉样蛋白的嗜银性是纤维平行排列的固有特征,而不是肾小球基底膜或细胞成分掺入的结果,并且针状淀粉样沉积物具有比二维研究中明显更高的组织结构。