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An electron micrograph of normal lung tissue showing microdomains in the extracellular matrix which contain varying amounts of sulphation. An electron.

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Presentation on theme: "An electron micrograph of normal lung tissue showing microdomains in the extracellular matrix which contain varying amounts of sulphation. An electron."— Presentation transcript:

1 An electron micrograph of normal lung tissue showing microdomains in the extracellular matrix which contain varying amounts of sulphation. An electron micrograph of normal lung tissue showing microdomains in the extracellular matrix which contain varying amounts of sulphation. Cytochemical visualisation of sulphation in the extracellular matrix was performed using high iron diamine (HID), which binds to sulphates in lung tissue. The HID reaction product forms discrete 5–12 nm silver particles following appropriate intensification and is seen as discrete dark spots [29]. The basement membrane under a type I cell (ATI) and an adjacent fibroblast (F) is highly sulphated (white arrows in a and b). The microdomains surrounding the pulmonary fibroblast show this cell to have microdomains of high and low sulphation. The extracellular matrix adjacent to the type I epithelial cell is highly sulphated (white arrows in a and b) whereas the extracellular matrix adjacent to the endothelial cell (EC) is undersulphated (black arrowheads in a and b). In contrast to the ATI cell, this electron micrograph shows that the extracellular matrix underlying the type II cell (ATII) is undersulphated. White arrowheads in a) and c) define the extracellular matrix underlying the ATII cell and a pulmonary capillary EC. AS: alveolar space; LM: lamellar body. C. W. Frevert, and P. L. Sannes Eur Respir Rev 2005;14: ©2005 by European Respiratory Society

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