Picrosirius Red Staining A Useful Tool to Appraise Collagen Networks in Normal and Pathological Tissues
Specific staining of the extracellular matrix components is especially helpful in studying tissue remodeling, particularly in the case of connective tissue pathologies. As developed by Junqueira and colleagues in 1979, specific staining by Picrosirius red is one of the most important stains to study...
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| Published in | The journal of histochemistry and cytochemistry Vol. 62; no. 10; pp. 751 - 758 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Los Angeles, CA
SAGE Publications
01.10.2014
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0022-1554 1551-5044 1551-5044 |
| DOI | 10.1369/0022155414545787 |
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| Abstract | Specific staining of the extracellular matrix components is especially helpful in studying tissue remodeling, particularly in the case of connective tissue pathologies. As developed by Junqueira and colleagues in 1979, specific staining by Picrosirius red is one of the most important stains to study collagen networks in different tissues. Under polarized light, collagen bundles appear green, red or yellow, and are easily differentiated from the black background, thus allowing for quantitative morphometric analysis. As Junqueira and colleagues point out, many studies use color staining to differentiate collagen bundles and to specify collagen types, yet other studies report that polarized colors only reflect fiber thickness and packing. Using a simple histological example, our study illustrates the inability of Picrosirius red staining to differentiate collagen types, since the absorbed amount of polarized light by this dye strictly depends on the orientation of the collagen bundles. |
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| AbstractList | Specific staining of the extracellular matrix components is especially helpful in studying tissue remodeling, particularly in the case of connective tissue pathologies. As developed by Junqueira and colleagues in 1979, specific staining by Picrosirius red is one of the most important stains to study collagen networks in different tissues. Under polarized light, collagen bundles appear green, red or yellow, and are easily differentiated from the black background, thus allowing for quantitative morphometric analysis. As Junqueira and colleagues point out, many studies use color staining to differentiate collagen bundles and to specify collagen types, yet other studies report that polarized colors only reflect fiber thickness and packing. Using a simple histological example, our study illustrates the inability of Picrosirius red staining to differentiate collagen types, since the absorbed amount of polarized light by this dye strictly depends on the orientation of the collagen bundles.Specific staining of the extracellular matrix components is especially helpful in studying tissue remodeling, particularly in the case of connective tissue pathologies. As developed by Junqueira and colleagues in 1979, specific staining by Picrosirius red is one of the most important stains to study collagen networks in different tissues. Under polarized light, collagen bundles appear green, red or yellow, and are easily differentiated from the black background, thus allowing for quantitative morphometric analysis. As Junqueira and colleagues point out, many studies use color staining to differentiate collagen bundles and to specify collagen types, yet other studies report that polarized colors only reflect fiber thickness and packing. Using a simple histological example, our study illustrates the inability of Picrosirius red staining to differentiate collagen types, since the absorbed amount of polarized light by this dye strictly depends on the orientation of the collagen bundles. Specific staining of the extracellular matrix components is especially helpful in studying tissue remodeling, particularly in the case of connective tissue pathologies. As developed by Junqueira and colleagues in 1979, specific staining by Picrosirius red is one of the most important stains to study collagen networks in different tissues. Under polarized light, collagen bundles appear green, red or yellow, and are easily differentiated from the black background, thus allowing for quantitative morphometric analysis. As Junqueira and colleagues point out, many studies use color staining to differentiate collagen bundles and to specify collagen types, yet other studies report that polarized colors only reflect fiber thickness and packing. Using a simple histological example, our study illustrates the inability of Picrosirius red staining to differentiate collagen types, since the absorbed amount of polarized light by this dye strictly depends on the orientation of the collagen bundles. |
| Author | Lutomski, Didier Changotade, Sylvie Lattouf, Raed Senni, Karim Younes, Ronald Godeau, Gaston Naaman, Nada |
| Author_xml | – sequence: 1 givenname: Raed surname: Lattouf fullname: Lattouf, Raed – sequence: 2 givenname: Ronald surname: Younes fullname: Younes, Ronald email: ronald.younes@usj.edu.lb – sequence: 3 givenname: Didier surname: Lutomski fullname: Lutomski, Didier – sequence: 4 givenname: Nada surname: Naaman fullname: Naaman, Nada – sequence: 5 givenname: Gaston surname: Godeau fullname: Godeau, Gaston – sequence: 6 givenname: Karim surname: Senni fullname: Senni, Karim – sequence: 7 givenname: Sylvie surname: Changotade fullname: Changotade, Sylvie |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/25023614$$D View this record in MEDLINE/PubMed |
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| SubjectTerms | Adult Azo Compounds - analysis Collagen - analysis Collagen - metabolism Connective Tissue - metabolism Connective Tissue - pathology Ehlers-Danlos Syndrome - metabolism Ehlers-Danlos Syndrome - pathology Female Humans Light Male Microscopy Skin - cytology Skin - metabolism Skin - pathology Staining and Labeling - methods Young Adult |
| Subtitle | A Useful Tool to Appraise Collagen Networks in Normal and Pathological Tissues |
| Title | Picrosirius Red Staining |
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