Wisniewski H M, Wen G Y, Kim K S
New York State Institute for Basic Research in Developmental Disabilities, Staten Island 10314.
Acta Neuropathol. 1989;78(1):22-7. doi: 10.1007/BF00687398.
The sensitivities of four staining methods for detecting the presence of neuritic plaques in the normal aging, Alzheimer disease (AD) and Down's syndrome (DS) brains were compared. The Bielschowsky method and immunostaining with monoclonal antibody (4G8, IgG2b) to beta-amyloid revealed the highest numbers of plaques. The thioflavin S-staining method showed about 38%-70% of plaques as shown by the Bielschowsky method. The Bodian method is the least sensitive method revealing about 26%-39% of plaques as compared with the Bielschowsky method. In the first part of this study, serial sections (6 microns) of the plaques from AD and DS brains were cut and stained with Bielschowsky, thioflavin S and Bodian methods, respectively. In the second part, Bielschowsky and immunostaining methods were used to stain serial sections (6 microns) of plaques from the same block of brain tissue. A Zeiss Axiophot fluorescence microscope, coupled with the Cambridge Quantiment 970 and Zeiss Videoplan computerized image analyzers, was used to quantify the number of plaques. Both Bielschowsky and immunostaining methods revealed the presence of both the peripheral zone (halo) and the central core of a classical plaque and resulted in the highest plaque counts. The central core of the thioflavin S-stained plaques were still clearly present, but the peripheral zone was barely visible. In Bodian stain, however, both central core and peripheral zone were poorly stained and not detectable by computer. They were quantified by human eye observation. The Bielschowsky method and immunostaining with pretreatment with formic acid are, therefore, the most sensitive methods showing the highest contrast of plaque image and thus facilitate the quantification of plaque by computer.(ABSTRACT TRUNCATED AT 250 WORDS)
比较了四种染色方法检测正常衰老、阿尔茨海默病(AD)和唐氏综合征(DS)脑内神经炎性斑块的敏感性。 Bielschowsky法和用抗β-淀粉样蛋白单克隆抗体(4G8,IgG2b)进行免疫染色显示的斑块数量最多。硫黄素S染色法显示的斑块数量约为Bielschowsky法的38%-70%。Bodian法是最不敏感的方法,与Bielschowsky法相比,显示的斑块数量约为26%-39%。在本研究的第一部分,分别对AD和DS脑内斑块的连续切片(6微米)进行Bielschowsky法、硫黄素S法和Bodian法染色。在第二部分,用Bielschowsky法和免疫染色法对来自同一脑组织块的斑块连续切片(6微米)进行染色。使用配备剑桥Quantiment 970和蔡司Videoplan计算机图像分析仪的蔡司Axiophot荧光显微镜对斑块数量进行定量。Bielschowsky法和免疫染色法均显示出典型斑块的外周区(晕圈)和中央核心,且斑块计数最高。硫黄素S染色斑块的中央核心仍清晰可见,但外周区几乎不可见。然而,在Bodian染色中,中央核心和外周区染色均较差,计算机无法检测到。通过肉眼观察对其进行定量。因此,Bielschowsky法和经甲酸预处理的免疫染色法是最敏感的方法,显示出最高的斑块图像对比度,从而便于通过计算机对斑块进行定量。(摘要截断于250字)
