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Trichrome stains in which dyes and a polyacid are applied sequentially are called multi-step trichromes. In "one-step" methods, all the dyes—with or without a polyacid—are combined in a single solution. One of the oldest single-step approaches to trichrome staining is van Gieson's method, which stains muscle and cytoplasm yellow, and ...
Another common variant is the Masson trichrome & Verhoeff stain, which combines the Masson trichrome stain and Verhoeff's stain. [2] This combination is useful for the examination of blood vessels ; the Verhoeff stain highlights elastin (black) and allows one to easily differentiate small arteries (which typically have at least two elastic ...
Van Gieson's stain is a mixture of picric acid and acid fuchsin. It is the simplest method of differential staining of collagen and other connective tissue . It was introduced to histology by American neuropsychiatrist and pathologist Ira Van Gieson .
Dilated peri-tubular capillaries filled with sickled RBCs, original Gomori's trichrome stain, × 400. [1] The "ragged red fibers" in MELAS syndrome are visible under modified Gomori stain. Gömöri trichrome stain is a histological stain used on muscle tissue. [2] [3] It can be used to test for certain forms of mitochondrial myopathy.
Lillie's trichrome is a combination of dyes used in histology. It is similar to Masson's trichrome stain , but it uses Biebrich scarlet for the plasma stain. It was initially published by Ralph D. Lillie in 1940. [ 1 ]
Acid fuchsin has wide use in histology, [1] and is one of the dyes used in Masson's trichrome stain. [2] This method is commonly used to stain cytoplasm and nuclei of tissue sections in the histology laboratory in order to distinguish muscle from collagen. The muscle stains red with the acid fuchsin, and the collagen is stained green or blue ...
Mallory's trichrome stain also called Mallory's Triple Stain is a stain utilized in histology to aid in revealing different macromolecules that make up the cell. It uses the three stains: aniline blue , acid fuchsin , and orange G .
Movat's stain is a pentachrome stain originally developed by Henry Zoltan Movat (1923–1995), a Hungarian-Canadian Pathologist in Toronto [1] in 1955 to highlight the various constituents of connective tissue, especially cardiovascular tissue, by five colors in a single stained slide. [2]