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Shoobridge’s Polychrome for Collagen and Other Structures

Protocol

Shoobridge's Polychrome

for Collagen and Other Structures

21
steps
13
materials
print

Materials

  • Lillie’s alum hematoxylin
  • Iron alum
    MaterialAmount
    Ferric ammonium sulphate25g
    Distilled water500mL
    Glycerol70mL

    This should be pH 2.0.

  • Acid ethanol
    MaterialAmount
    Ethanol, absolute100mL
    Distilled water100mL
    Hydrochloric acid, concentrated1mL
  • Formal primer
    MaterialAmount
    Picric acid, saturated aqueous400mL
    Formalin, concentrated100mL

    This should be pH 2.0.

  • Naphthol yellow primer
    MaterialAmount
    Naphthol yellow S1g
    Distilled water400mL

    Adjust to pH 2.0 with HCl or NAOH.

  • Tungsto-orange
    MaterialAmount
    Phosphotungstic acid0.5g
    Distilled water200mL
    Orange G1g

    Preparation

    1. Dissolve the phosphotungstic acid.
    2. Then add the orange G.
    3. Adjust to pH 2.5 with HCl or NaOH.
  • Tungsto-acid fuchsin
    MaterialAmount
    Phosphotungstic acid0.5g
    Distilled water200mL
    Acid fuchsin1g

    Preparation

    1. Dissolve the phosphotungstic acid.
    2. Then add the acid fuchsin.
    3. Adjust to pH 2.5 with HCl or NaOH
  • Tungsto-methyl blue
    MaterialAmount
    Phosphotungstic acid0.5g
    Distilled water200mL
    Methyl blue1g

    Preparation

    1. Dissolve the phosphotungstic acid.
    2. Then add the acid fuchsin.
    3. Adjust to pH 2.5 with HCl or NaOH

Tissue Sample

5µ paraffin sections of tissues fixed in neutral buffered formalin for 6-24 hours as the primary fixative, followed by secondary fixation in 0.5% aqueous mercuric chloride for 30 minutes at 37°C, or for several hours at room temperature. Treatment with mercuric chloride may be omitted but the staining results will be inferior.

Protocol

  1. Bring sections to water via xylene and ethanol.
  2. Remove mercury pigment and wash well with tap water.
  3. Place into iron alum for 10 minutes.
  4. Rinse well with tap water.
  5. Rinse with distilled water.
  6. Place into Lillie’s hemalum for 10 minutes.
  7. Rinse well with tap water.
  8. Differentiate with acid ethanol for 15-30 seconds.
  9. Blue with running tap water (50°C). Avoid alkaline blueing solutions.
  10. Rinse with distilled water (50°C).
  11. Stain with naphthol yellow primer or picro-formal primer for 30 minutes at 50°C.
    Prewarm the solution.
  12. Wash in running tap water until differentiated (about 5 minutes at pH 6.5-7.0). Only erythrocytes, muscle and fibrin should be yellow.
  13. Stain in tungsto-orange solution for 5 minutes at room temperature.
  14. Rinse with tap water (pH 7.0 or less) for 15-30 seconds.
  15. Stain with tungsto-acid fuchsin for 5 minutes at room temperature.
  16. Rinse with tap water (pH 7.0 or less) for 15-30 seconds.
  17. Stain with tungsto-methyl blue for 5 minutes at room temperature.
  18. Rinse with tap water (pH 7.0 or less) for 15-30 seconds.
  19. Drain excess water.
  20. Dehydrate rapidly with 3 changes of absolute ethanol.
  21. Clear with xylene and mount with a resinous medium.

Expected Results

  • Erythrocytes  –  Yellow
  • Striated muscle  –  Yellow, or bright red if the primer is omitted
  • Fibrin  –  Varies: unstained, yellow-red, scarlet, magenta, blueish-red as it ages.
  • Fibrinoid  –  Varies: yellow-red, scarlet, crimson.
  • Albumin  –  Bright orange-red
  • Elastin  –  Clear pink-red
  • Nucleoli  –  Bright red
  • Platelets: Fresh to medium  –  Unstained to brick red
  • Platelets: Old  –  Purplish, grey or pale blue
  • Secretory granules (e.g. pituitary)  –  Yellow, red or blue
  • Thyroid colloid  –  Red or blue (inactive tends to be blue)
  • Bile  –  Emerald to olive green
  • Primary amyloid  –  Smoky blue
  • Secondary amyloid  –  Pale blue
  • Most mucins  –  Pale blue
  • Reticulin  –  Blue
  • Collagen  –  Deep Blue
  • Basement membrane  –  Intense deep Blue

Notes

  • It is strongly advised that the original paper be consulted as it contains a great deal of precise information.
  • The naphthol yellow primer was recommended for routine use, as the picro-formal primer gave redder results.
  • The original paper includes a one-step method using the same dyes. Three stock solutions are prepared. Each solution contains 2 g of dye dissolved into 100 mL of 1% phosphotungstic acid. The staining solution is made by combining equal parts of these three solutions. Staining times are not given and should be established by trial and error.

Safety Note

Prior to handling any chemical, consult the Safety Data Sheet (SDS) for proper handling and safety precautions.

References

  1. Shoobridge, Michael P. K., (1983),
    A new principle in polychrome staining: A system of automated staining, complementary to hematoxylin and eosin, and usable as a research tool.,
    Stain Technology, v 58, page 245