扫描电镜在骨病理学中的应用:方法、潜力和应用综述。

Scanning electron microscopy Pub Date : 1986-01-01
A Boyde, E Maconnachie, S A Reid, G Delling, G R Mundy
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引用次数: 0

摘要

本文结合伦敦大学学院的研究,综述了扫描电镜技术在人骨病理学中的应用。我们考虑可能最合适的方法;在扫描电镜的大多数生物医学应用中,这些被证明是不“常规”的。在通过冲洗所有细胞进行基质表面制备或通过溶解骨进行矿化前制备之前,如果将骨样品的边缘磨平,则可以从骨样品中获得有价值的信息。对于这种制备,建议使用过氧化氢来产生坚固的标本。从切割块表面的BSE对比可用于测量骨相体积。自然表面(小梁、管道和腔隙)的SE对比可用于定性和定量地研究形成、休息和吸收表面(组织学骨软化症除外,在这种情况下,类骨的存在将无法检测到,反转线将难以与最近吸收的表面区分)。我们还建议使用PMMA嵌入骨块,它可以从病理学家那里获得,但通过更严格的程序更好地嵌入。疯牛病图像分析可用于定量骨密度分数,为未来开辟了一种全新的调查方法。如果骨样品在包埋前用明亮的磺胺块染色或在包埋剂中添加闪烁剂,则可以使用CL自动测量类骨。我们给出了从一些骨病中观察到的例子:维生素D抗性佝偻病,成骨不全症;软骨病;骨质疏松症;甲状旁腺功能亢进;氟中毒;佩吉特氏病;肿瘤向骨转移。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Scanning electron microscopy in bone pathology: review of methods, potential and applications.

This article reviews the applications of SEM methods to human bone pathologies referring to studies made at UCL. We consider the methods which may be most suitable; these prove to be not "routine" in the context of most bio-medical applications of SEM. Valuable information can be obtained from a bone sample if its edges are ground flat, before making either a matrix surface preparation by washing away all the cells or a mineralizing front preparation, by also dissolving the osteoid-for which hydrogen peroxide is recommended to produce a robust specimen. BSE contrast from a cut block surface can be used to measure bone phase volume. SE contrasts from natural surfaces (trabeculae, canals and lacunae) can be used to study forming, resting and resorbing surfaces both qualitatively and quantitatively (except in the case of histological osteomalacia, where the existence of osteoid will go undetected and reversal lines will be difficult to distinguish from recently resorbed surfaces). We also recommend the use of PMMA embedded bone blocks, which can be used as obtained from the pathologist, but are better embedded by a more rigorous procedure. BSE image analysis can be used to quantitate bone density fractions opening up a completely new investigative method for the future. Osteoid can be measured automatically using CL if the bone sample is block stained with brilliant sulphaflavine before embedding or if a scintillant is added to the embeddant. We give examples of observations made from a number of bone diseases: vitamin D resistant rickets, osteogenesis imperfecta; osteomalacia; osteoporosis; hyperparathyroidism; fluorosis; Paget's disease; tumour metastasis to bone.

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