Stains

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This article deals with stains. H&E isn't the only stain out there...

Where to start...

  1. H&E stain.
  2. PAS stain.
  3. PAS-D stain.
  4. AFB stain.
  5. Congo red.
  6. GMS stain.
  7. Gram stain.

Immunohistochemistry

General

  • Abbreviated IHC.

Interpretation

Simple version:

  • Positive is (usually): brown.
  • Negative tissue is: light blue.

Important notes:

  • One has to know where the target (of the antibody) is supposed to be, i.e. cytoplasm vs. cell membrane.
  • The edge of the tissue may have light staining - edge effect.
  • If everything is brown... suspect that it didn't work.
  • In some situations you're blessed with an internal control, e.g. in renal tumours CD10 will stain RCC and the proximal tubule, in GISTs - CD117 the mast cells are positive.

Work-up of infection

It often not possible to be definitive by staining.[1]

Basic panel:

  • Gram stain - for bacteria.
  • GMS stain - fungal stain.
  • PAS or PAS-D - for fungi (???).

Fungi

Specific stains

What follows is a big list... of stains.

Haematoxylin & Eosin stain

General

  • Abbreviated H&E.
  • Standard bearer in most pathology departments.

Intepretation

  • Blue (haematoxylin) = nucleus.
  • Pink (eosin) = cytoplasm.

Haematoxylin phyloxin saffron stain

General

  • Abbreviated HPS.
  • An alternative to the H&E stain - some pathol. departments use this as their standard.

Interpretation

  • Haematoxylin = blue -- stains nucleus.
  • Phyloxin = pink.
  • Saffron = yellow -- stains collagen.
  • An alternative to H&E stain.
    • Fibrosis is easier to see on HPS than H&E... as one can see the collagen.

Periodic acid Schiff stain

  • Abbreviated PAS.

Primary application

  • Kidney biopsies, medical.
  • Liver biopsies, medical.

Utility

  • Stains - basement membranes, fungi, glycogen, mucin

Interpretation

  • Magenta = glycogen, mucin, fungi.
  • Blue = nuclei.

Notes: [2]

Periodic acid Schiff with diastase

  • Abbreviated: PAS-D and PASD.

General

  • Diastase digests the glycogen.

Use

  • Stains mucin.
  • Used to identify glycogen (together with PAS stain).
    • Glycogen = clear (digested) on PAS-D.
    • Glycogen = magenta on PAS.

Notes: [3]

Gomori methenamine-silver stain

  • Abbrev. GMS.
  • Useful for fungi.
    • Pneumocystis jirovecii - cause of PCP - pneumocystic pneumonia.
    • Histoplasma - cause of histoplasmosis.
      • Histoplasma = black, round balls.

Notes: GMS is "Grocott's methenamine Silver" according to WMSP.[4]

Acid-fast bacilli stains

  • Abbreviated: AFB.

There are several AFB stains:

  • Ziehl-Neelson stain - used to look for Mycobacterium tuberculosis.
  • Fite stain - used to look for Mycobacterium laprae.[5]
  • Auramine rhodamine.

Ziehl-Neelson stain

  • Most popular acid-fast bacilli stain.
  • Stains other mycobacteria -- not specific for tuberculosis.
    • Stains nocardia.[6]

Fite stain

Interpretation:

  • Red = AFB.
  • Blue = background.

Congo red stain

  • Used to look for amyloid.
  • Mnemonic: CRAP = congo red amyloid protein.
  • An alternate stain for amyloid is Thioflavin T.

Interpretation:

  • Amyloid = pink/red.
  • Nuclei = blue.

Notes:[7]

Gram stain

Use:

  • "It is useless for finding bacteria."[8]
    • I suppose this is as you find 'em on H&E... or microbiology finds 'em.

Interpretation

  • Blue = Gram positive organisms.
  • Red = Gram negative organisms, nuclei
  • Yellow = background.

Notes:

  • Many of the bacteria are quite small relative to lymphocytes; Escherichia coli is 1-2 micrometers long x 0.25 micrometers in diameter.[9]
  • Epithelial cell nuclei & stromal cell nuclei may stain red.

Ref.:[10]

Luxol fast blue stain

  • Abbreviated LFB.

Use

  • Neuropathology, myelin stain.

Intepretation

  • Blue = myelinated fibers (contain lipoproteins).
    • Lack of blue suggests demyelination.
  • Purple = nerve cell (e.g. neuron).
  • Neutrophils = pink.

Notes:[11]

Giemsa stain

Use

  • Useful for finding mast cells.
  • Useful for finding donovan bodies and leishmania.[12]

Interpretation

  • Tissue is light blue/green.

Reticulin stain

Use

  • Liver biopsy, medical.
    • Demonstrates the reticular fibers (in cirrhosis the fibers are disrupted).

Interpretation

  • Black = reticular fibers.
  • Red = nuclei.

Notes:[13]

Cresyl violet

  • Everything is shades of blue.
  • Used at some places (e.g. SMH) to look for Helicobacter organisms.
    • Helicobacter stains blue.

Prussian blue stain

  • AKA Perl's iron stain.
  • Useful for iron and hemosiderin; useful for differentiating brown pigments (melanin, lipofuscin, tattoo pigment, hemosiderin).

Image:

Notes:

  • Described well by vetmed.vt.edu.[14]
  • DDx of brown pigment: Fontana-Masson (melanin), Kluver-Barrera stain (lipofuscin).

Kluver-Barrera stain

Combination of:

  • Luxol Fast Blue,
  • Cresyl Violet,
  • Special component for lipofuscin.

Use

  • Useful for differentiating brown pigments (melanin, lipofuscin, tattoo pigment, hemosiderin).
    • Stains lipofuscin.

Interpretation

  • Blue pigmented granules = lipofuscin.

Notes:

  • Described well by vetmed.vt.edu.[15]
  • DDx of brown pigment: Fontana-Masson (melanin), Prussian blue stain (hemosiderin).

Oil red 0 stain

Use

  • Stain adipose tissue.

Notes:

  • Must be done on fresh tissue, i.e. it cannot be fixed in formulin.

Warthin-Starry stain

Background

  • Developed by a bunch of pathologists in Michigan to look for spirochetes[16]

Use

  • Find spirochetes, e.g. syphilis[17]
  • Find Helicobacter spp., e.g. Helicobacter pylori -- Mount Sinai Hospital[18]

Interpretation:[19]

  • Spirochetes - black.
  • Background - yellow.

Image:

Bielschowsky stain

Abbreviated: Biel stain.

Use

  • Stains glial tissue, i.e. brain.
    • Demonstrates neurofibrillary tangles, senile plaques (as in Alzheimer's disease).

Interpretation

  • Black = axons, tangles, plaques.
  • Brown/dark brown = plaque, vascular amyloid.
  • Yellow/brown = other.

Notes: [20]

Mucicarmine

  • Stains some mucins... uses the dye carmine.

Use

  • Identify mucin.
  • Malignant cells that produce mucin... carcinomas.[21]

Interpretation

  • Carmine with metanil yellow and Weigert's Hematoxylin:[22]
    • Blue/black = nucleus.
    • Yellow = background.
    • Red = mucin.[23]

Image:

Alcian blue

General

  • Stains acidic mucin (pH=2.5); Alcian blue = Acidic.
    • A variant uses pH=1.0.[24]

Use

  • Identify intestinal metaplasia in the stomach -- goblets = blue.

Interpretation

  • Blue = acidic mucins.

Notes:[25]

Movat's stain

Use

Components

  • Acid fuchsin, alcian blue, crocein scarlet, elastic hematoxylin, and saffron.[26][27]

Interpretation of Movat stain

  • Black = nuclei and elastic fibers.
  • Yellow = collagen and reticular fibers.
  • Blue = mucin, ground substance.
  • Red (intense) = fibrin.
  • Red = muscle.

Reference: [27]

How to remember? A.: Primary colours (red, blue, yellow) + black.

Masson's trichrome

General use

  • Collagen vs. muscle.

Site

  • Kidney Bx (to assess for fibrosis).
  • Liver Bx (to assess for cirrhosis).

Interpretation

  • Black = nuclei.
  • Red = muscle (smooth muscle actin).
  • Baby blue = collagen.

Notes: [28]

Elastic trichrome

General:

  • "Elastic trichrome" is one important variant of Masson's trichrome.

Interpretation - as above in Masson's trichrome - plus:

  • Black = nuclei and elastin.

HOPS stain

Name is an acronym for... haematoxylin, orcein, phyloxin and saffron.[29]

Interpretation

  • Blue (haematoxylin) = nuclei.
  • Black (orcein) = elastin.
  • Red (phyloxin) = muscle.
  • Yellow (saffron) = collagen.

Jones' stain

Use

  • Visualize basement membrane in kidney biopsies.

Interpretation

  • Black = basement membrane.
  • Blue = nuclei.
  • Pink = other structures/background.

Notes:[30]

Hale's colloidal iron

Use

Interpretation

  • Blue is positive.[32]

Notes:

  • A few staff think this is a totally useless stain.[33]

von Kossa

Use

  • Look for calcium.

Interpretation

  • Black = calcium.[34]

Toluidine blue

Use

Interpretation

  • Dark blue - nuclei, mast cell granules.
  • Light blue - cytoplasm.

Ref.: looks a bit sketchy - [36]

Image:

Romanowsky stain

  • Occasionally spelled Romanowski.
  • Many variants of this stain exist.
  • Specimens are air-dried.


Interpretation:[37]

  • Red - RBCs, eosinophil granules.
  • Blue (basophilic) - lymphocyte cytoplasm.
  • Purple - nuclear chromatin, neutrophil granules, platelets.

Field's stain

  • Variant of the Romanowsky stain for rapid processing.
  • Tends to "blow-up" cell, i.e. cells are larger vis-a-vis Pap stain.

Diff-Quik

  • Proprietary variant of Romanowsky stain.[38]
  • Use: cytopathology.

Wright stain

  • A variant of the Romanowsky stain; popular in North American.

Use:

  • Blood films.

May-Grünwald-Giemsa

  • A variant of the Romanowsky stain; popular in Europe.
  • Abbreviated MGG.

Use:

  • Blood films.
  • Cytopathology.

Papanicolaou stain

  • Often abbreviated Pap stain.
  • Can be thought of as the H&E of cytopathology.
    • It is a modified H&E stain.
  • Specimens are fixed in ethanol.
  • Good for seeing nuclear detail.
  • Out-of-focus cytoplasm is translucent; allows one to focus overlapped cells in different planes.

Use

  • Cytopathology.

Interpretation

  • Blue/purple = nucleus.
  • Green/pink = cytoplasm.
  • Orange = keratin.

Image:

Fontana-Masson

  • AKA Fontana-Masson stain for melanin, melanin stain.
  • A type of silver stain.

Stains:

  1. Melanin.
  2. "argentaffin granules" of the digestive tract.

Use

  • Stain for melanin.
    • Used to differentiate brown pigments (lipofuscin, hemosiderin, melanin).[39]
      • Many pathologists prefer IHC, i.e. Melan A over this stain.

Image:

Schmorl's stain

  • Stains melanin.
    • Similar to Fontana-Masson stain.

Notes:[40]

See also

References

  1. Woods GL, Walker DH (July 1996). "Detection of infection or infectious agents by use of cytologic and histologic stains". Clin. Microbiol. Rev. 9 (3): 382-404. PMC 172900. PMID 8809467. http://cmr.asm.org/cgi/pmidlookup?view=long&pmid=8809467.
  2. http://library.med.utah.edu/WebPath/HISTHTML/MANUALS/PAS.PDF
  3. http://library.med.utah.edu/WebPath/HISTHTML/MANUALS/PASD.PDF
  4. WMSP P.682.
  5. http://library.med.utah.edu/WebPath/HISTHTML/MANUALS/FITES.PDF
  6. http://library.med.utah.edu/WebPath/LUNGHTML/LUNG024.html
  7. http://library.med.utah.edu/WebPath/HISTHTML/MANUALS/CONGORED.PDF
  8. SMH handout.
  9. http://www.lpi.usra.edu/publications/slidesets/marslife/slide_27.html
  10. http://library.med.utah.edu/WebPath/HISTHTML/MANUALS/GRAM.PDF
  11. http://library.med.utah.edu/WebPath/HISTHTML/MANUALS/LFB.PDF
  12. URL: http://library.med.utah.edu/WebPath/HISTHTML/STAINS/STAINS.html. Accessed on: April 6, 2009.
  13. http://library.med.utah.edu/WebPath/HISTHTML/MANUALS/RETIC.PDF
  14. Prussian blue stain. URL:[http://education.vetmed.vt.edu/curriculum/VM8054/labs/Lab2/Examples/exprussb.htm. Accessed on: 5 May 2010.
  15. Kluver-Barrera stain. URL:http://education.vetmed.vt.edu/curriculum/VM8054/labs/Lab2/Examples/exkluvbarr.htm. Accessed on: 5 May 2010.
  16. [1]
  17. URL: http://library.med.utah.edu/WebPath/HISTHTML/STAINS/STAINS.html. Accessed on: April 6, 2009.
  18. http://www.dako.co.uk/index/prod_search/prod_products.htm?productareaid=41&baseprodidver=A224462007
  19. http://library.med.utah.edu/WebPath/HISTHTML/STAINS/STAIN029.html
  20. http://library.med.utah.edu/WebPath/HISTHTML/MANUALS/BIELSCH.PDF
  21. APBR P.681 (Q25).
  22. WMSP P.678.
  23. http://www.medschool.lsuhsc.edu/pathology/pathist/SURGPATH/special%20stains/assets/mucicarmine3.jpg
  24. WMSP P.682.
  25. http://library.med.utah.edu/WebPath/HISTHTML/MANUALS/ALCIAN.PDF
  26. [2]
  27. 27.0 27.1 Modified Movat's Pentachrome Stain. University Penn Medicine. URL: http://www.med.upenn.edu/mcrc/histology_core/movat.shtml. Accessed on: January 29, 2009.
  28. http://library.med.utah.edu/WebPath/HISTHTML/MANUALS/MASSONS.PDF
  29. Perry JR, Bilbao JM, Gray T (1992). "Fatal basilar vasculopathy complicating bacterial meningitis". Stroke 23 (8): 1175–8. PMID 1636194. Free Full Text.
  30. http://library.med.utah.edu/WebPath/HISTHTML/MANUALS/JONES.PDF
  31. Tickoo SK, Amin MB, Zarbo RJ (April 1998). "Colloidal iron staining in renal epithelial neoplasms, including chromophobe renal cell carcinoma: emphasis on technique and patterns of staining". Am. J. Surg. Pathol. 22 (4): 419–24. PMID 9537468. http://meta.wkhealth.com/pt/pt-core/template-journal/lwwgateway/media/landingpage.htm?issn=0147-5185&volume=22&issue=4&spage=419.
  32. Humphrey, Peter A; Dehner, Louis P; Pfeifer, John D (2008). The Washington Manual of Surgical Pathology (1st ed.). Lippincott Williams & Wilkins. pp. 682. ISBN 978-0781765275.
  33. ALS several occasions - 2009.
  34. WMSP P.682.
  35. Fischer EG, Moore MJ, Lager DJ (October 2006). "Fabry disease: a morphologic study of 11 cases". Mod. Pathol. 19 (10): 1295–301. doi:10.1038/modpathol.3800634. PMID 16799480. http://www.nature.com/modpathol/journal/v19/n10/abs/3800634a.html.
  36. http://www.molecularstation.com/protocol-links/articles/Toluidine-Blue-Stain-32.html
  37. Horobin RW, Walter KJ (1987). "Understanding Romanowsky staining. I: The Romanowsky-Giemsa effect in blood smears". Histochemistry 86 (3): 331–6. PMID 2437082. http://www.springerlink.com/content/r81x25451m841866/.
  38. URL: http://www.ihcworld.com/_protocols/special_stains/diff_quick_ellis.htm. Accessed on: 4 January 2010.
  39. URL: http://education.vetmed.vt.edu/curriculum/VM8054/labs/Lab2/Examples/exfontana.htm. Accessed on: 5 May 2010.
  40. URL: http://library.med.utah.edu/WebPath/HISTHTML/STAINS/STAINS.html. Accessed on: 5 May 2010.

External links