Demonstration of Elastic Tissue and Iron or Elastic Tissue and Calcium Simultaneously

For the concomitant demonstration of iron and elastic tissue Perls' test solution was used, followed by Verhoeff's stain or Gomori's aldehyde fuchsin. When Perls' and Verhoeff's stain were used in sequence, the iron deposits were greenish blue and the elastic lamellae were black. When Perls' test solution was combined with aldehyde fuchsin the iron deposits were blue and elastic tissue purple. Calcium salts and elastic tissue were demonstrated concomitantly by using von Kossa's method followed by Gomori's aldehyde fuchsin. With such combined staining, the calcium salts appeared brownish black and elastic tissue purple. With these procedures, it was possible to see the exact relationship of calcium and iron deposits to the elastic tissue.     

Quantitative Determination of Murine Dermal Elastic Fibers by Color Image Analysis: Comparison of Three Staining Methods

We compared three different staining methods to determine if the dermal elastic fiber content of the HRS/Skh-1 hairless mouse could be accurately measured by color image analysis. Comparisons were made among Klig-man's modification of Luna's mast cell stain for elastin, Unna's orcein stain with or without potassium permanganate preoxidation, and Gomori's aldehyde fuchsin stain with potassium permanganate preoxidation. The color image analysis system could be used to identify and quantify murine dermal elastin fibers in sections stained by all three methods. Gomori's aldehyde fuchsin stain with preoxidation demonstrated twice the content of dermal elastic fibers demonstrated by either Kligman's modification of Luna's mast cell stain or Unna's orcein stain with or without preoxidation. Gomori's aldehyde fuchsin method with preoxidation should be considered the stain of choice for evaluating murine dermal elastic fiber content.     

An Orcein-Oil Red O Stain for Concomitant Demonstration of Elastic Tissue and Lipid

Orcein, 0.5% in 50% isopropanol, 0.5-1 hr, followed by saturated oil red O in isopropanol diluted 3:2 with distilled water, 10-15 min, was used to demonstrate lipids and elastic tissue simultaneously in 10 μ frozen sections of formalin-fixed aortas of the wild African buffalo, showing atherosclerotic lesions. A comparison was made with the oil red O-aldehyde fuchsin (AF) method of Kwaan and Hopkins (Stain Techn., 39: 123-5, 1964) and the resorcin fuchsin (RF)-oil red O method of Lillie (Histopathologic Technic and Practical Histochemistry, McGraw-Hill, 1954), but both gave marked background staining by AF or RF that obscured the smaller deposits of lipid. Sudan IV could be substituted for oil red but did not demonstrate many of the finest deposits of lipids. Sudan black, in combination with orcein, AF or RF, was very satisfactory for demonstrating lipids but obscured many elastic fibres. Sudan dyes I, II, III, brown, blue, and green, with orcein, AF or RF, showed less contrast between lipids and elastic tissue or failed to stain the lipids adequately.     

Elastic Tissue Staining

It has been found that the addition of dextrin to samples of crystal violet and basic fuchsin employed in the prepararation of the elastic tissue stain after the technic of Weigert makes more sure a satisfactory final product. A modification of the original Weigert technic employing crystal violet or a mixture of crystal violet and basic fuchsin is offered as providing a better color contrast both visually as well as photographically. Crystal violet alone affords a bright greenish-yellow elastin while the addition of basic fuchsin results in a darker stain shading into dark blue as the proportion of basic fuchsin is increased.     

Modified elastic tissue-Masson trichrome stain

A combined elastic tissue-Masson technique is presented which stains elastic fibers of all sizes, nuclei and connective tissue. The modified elastic tissue stain consists of hematoxylin, ferric chloride and Verhoeff's iodine; nuclei and elastic fibers are stained blue-black in six minutes without differentiation. By contrast, cytoplasmic elements are stained red, (Biebrich scarlet-acid fuchsin) and collagen is stained green (light green) or blue (aniline blue). The entire staining procedure takes approximately one hour.     

A combination Verhoeff's elastic and Masson's trichrome stain for routine histology

A method for the combined staining of elastic, muscle and connective tissue for routine use in histopathology is described. The elastica, stained black by Verhoeff's technique, is contrasted with the muscle and connective tissue stained red and green or blue respectively by a modification of Masson's trichrome. Cell nuclei stain blue-black with Weigert's iron hematoxylin. The procedure takes approximately two hours and is most suitable for the study of vascular pathology in surgical and autopsy sections.     

Modified Elastic Tissue-Masson Trichrome Stain

A combined elastic tissue-Massou technique is presented which stains elastic fibers of all sizes, nuclei and connective tissue. The modified elastic tissue stain consists of hematoxylin, ferric chloride and Verhoeffs iodine; nuclei and elastic fibers are stained blue-black in six minutes without differentiation. By contrast, cytoplasmic elements are stained red, (Biebrich scarlet-acid fuchsin) and collagen is stained green (light green) or blue (aniline blue). The entire staining procedure takes approximately one hour.     

Quad-Type Stain for the Simultaneous Demonstration of Intracellular and Extracellular Tissue Components

This technic for the simultaneous demonstration of several different tissue components works equally well on invertebrate and vertebrate tissue if they have been treated with nonchromate fixatives Sections 4-7 μ thick are stained 30 min in 1% Alcian blue, then treated with alkaline alcohol for 2 hr. They are stained in Verhoeff's hematoxylin for 4-6 hr, and rinsed in alcohol; stained in woodstain scarlet-acid fuchsin for 3 min, decolorized in 5% phosphotungstic acid for 20 min and finally stained 5-8 min in alcoholic saffron. Collagen and bone are stained yellow; elastin, myelin and nucleic acids, purple to black; muscle, chitin, cytoplasm, fibrinoid and acid secretion, bright red to lavender; ground substances and mucus, blue-green. Fibrous connective tissue, cartilage, bone and glandular epithelia are exceptionally well demonstrated by this method. Slides stained in this manner are well suited for color photomicrography and as demonstrations in the classroom.     

A Combination Verhoeffs Elastic and Masson's Trichrome Stain for Routine Histology

A method for the combined staining of elastic, muscle and connective tissue for routine use in histopathology is described. The elastica, stained black by Verhoeffs technique, is contrasted with the muscle and connective tissue stained red and green or blue respectively by a modification of Masson's trichrome. Cell nuclei stain blue-black with Weigert's iron hematoxylin. The procedure takes approximately two hours and is most suitable for the study of vascular pathology in surgical and autopsy sections.     

A Selective Stain for Elastic Tissue (Orcinol-New Fuchsin)

A selective stain for elastic tissue (designated orcinol-new fuchsin) is described. Two grams of new fuchsin (C.I. No. 678) and 4 gm of orcinol (highest purity) are added to 200 ml of distilled water and the solution boiled for 5 min. Then 25 ml ferric chloride solution (U.S.P. IX) are added and the solution is boiled 5 min longer. The precipitate is collected and dissolved in 100 ml 95% ethanol. This is the staining solution. Sections are deparaffinized and brought to absolute ethanol, stained for 15 min at 37 °C with orcinol-new fuchsin, differentiated for 15 min in 70% ethanol, dehydrated, cleared and covered as usual.     

Iron Gallein Elastic Method—A Substitute for Verhoeff'S Elastic Tissue Stain

A method for staining elastic fibers in formalin fixed, paraffin embedded sections is described. After deparaffinizing and dehydration. sections are stained for 30 minutes in a solution prepared by mixing equal parts of 1% gallein dissolved in ethylene glycol and absolute alcohol (1:4), and 1.16% aqueous ferric chloride in 1% hydrochloric acid. The sections are washed in water and then differentiated in 2% ferric chloride for 2 minutes. After washing in water, the sections am counterstained with a variant of Van Girson's picric acid-acid fuchsin for 1 minute. The results are similar to Verhoeff s elastic stain with elastic fibers staining black. An advantage to this staining procedure is that visually controlled differentiation is not necessary.     

Iron and aluminum lakes of Gallo blue E as nuclear and metachromatic mucin stains.

Gallo blue E, C. I. No. 51040, Mordant Violet 54, furnishes a blue black nuclear stain when applied to tissue sections in the form of its moderately stable iron lakes. This coloring combined well with such counterstains as orange G and eosin B. The Van Gieson stain tends to decolorize mucins, cartilage, and mast cells previously stained with this dye. Its aluminum lake solutions tend to gel in a few minutes to 24 hours depending on the solvent used and the amount of Al3+ present. Aluminum lake solutions give a moderately good blue to dark blue nuclear stain and a brilliant purplish red to dark purple stain to a variety of epithelial and connective tissue mucins. Acid dye counterstains are poorly tolerated. With either lake, nuclear staining is abolished by deoxyribonuclease digestion or relatively short mineral acid extraction of DNA.     

Iron and Aluminum Lakes of Gallo Blue E As Nuclear and Metachromatic Mucin Stains

Gallo blue E, C. I. No. 51040, Mordant Violet 54, furnishes a blue black nuclear stain when applied to tissue sections in the form of its moderately stable iron lakes. This adoring combined well with such counterstains as orange G and eosin B. The Van Gieson stain tends to decolorize mucins, cartilage, and mast ells previously stained with this dye. Its aluminum lake solutions tend to gel in a few minutes to 24 hours depending on the solvent wed and the amount of Al²⁺ present. Aluminum lake solutions give a moderately good blue to dark blue nuclear stain and a brilliant purplish red to dark purple stain to a variety of epithelial and connective tissue mucins. Acid dye counterstains are poorly tolerated. With either lake, nuclear staining is abolished by deoxyribonuclease digestion or relatively short mineral acid extraction of DNA.     

Staining properties of aldehyde fuchsin analogs.

This investigation was designed to clarify the role of the aldehyde component of aldehyde fuchsin in its staining reactions. Several aldehyde fuchsin analogs were prepared by using different aldehydes. The staining quality of these analogs and pararosaniline-HCl was compared with that of aldehyde fuchsin prepared with paraldehyde in the usual way. The major findings of this investigation include: 1) Aldehyde fuchsin staining of nonoxidized pancreatic B cells requires a stain prepared with either paraldehyde or acetaldehyde. 2) An aldehyde moiety is required for aldehyde fuchsin staining of strong tissue anions. 3) Staining of elastic tissue with aldehyde fuchsin analogs resembles staining of strong tissue anions more than staining of nonoxidized pancreatic B cells. Possible reaction mechanisms of aldehyde fuchsin with tissue substrates are discussed.     

Iron gallein elastic method---a substitute for Verhoeff's elastic tissue stain.

A method for staining elastic fibers in formalin fixed, paraffin embedded sections is described. After deparaffinizing and dehydration, sections are stained for 30 minutes in a solution prepared by mixing equal parts of 1% gallein dissolved in ethylene glycol and absolute alcohol (1:4), and 1.16% aqueous ferric chloride in 1% hydrochloric acid. The sections are washed in water and then differentiated in 2% ferric chloride for 2 minutes. After washing in water, the sections are counterstained with a variant of Van Gieson's picric acid-acid fuchsin for 1 minute. The results are similar to Verhoeff's elastic stain with elastic fibers staining black. An advantage to this staining procedure is that visually controlled differentiation is not necessary.     

Staining Myelin, Elastic Fibers and Nuclei with Iron Hematoxylin

Two iron hematoxylin staining procedures were developed. Both use stable stock solutions and can be prepared volumetrically. The nuclear stain is progressive but differentiation is required for myelin sheath and elastic tissue staining. Histochemical procedures demonstrated that acid, hydroxyl, and aldehyde groups play no role in the staining but amine groups are essential. With both types of stains neither electrostatic bonding nor hydrogen bonding is essential but the nature of the union between tissue and the iron hematoxylin complex was not determined.     

A combined elastic, fibrin and collagen stain

A method is described which demonstrates nuclei, elastic fibers, red blood cells, collagen and fibrin. Nuclei and elastic fibers are stained by a modified Verhoeff's elastic tissue stain which was previously developed and used in the elastic-Masson combination. Both early fibrin and red blood cells are shown by lissamine fast yellow. Mature fibrin, some types of collagen and other cytoplasmic changes are stained by a combination of acid fuchsin, Biebrich scarlet and ponceau 2R, while old fibrin is demonstrated by the collagen stain. This method takes about 1 hr to perform and has the added advantage that several entities are clearly shown in a single slide.     

On the mechanism of Verhoeff's elastica stain: a convenient stain for myelin sheaths.

Verhoeff (1908) recommended an iron-hematein formula containing Lugol's solution for demonstration of elastic tissue; sections are differentiated until desired staining patterns are obtained. Verhoeff's stain colored a variety of tissue structures and showed higher substantivity for myelin sheaths than for elastin. Addition of HCL or omission of Lugol's solution decreased or abolished coloration of pseudo-elastica and thus enhanced selectivity for elastin. Substitution of Fe++ for Fe+++ abolished dye binding by elastin. A review of chemical data indicated interaction of components of Lugol's solution with the dye. Hematein and Fe+++ form a variety of cationic, anionic and non-ionic chelates; the ratio of these compounds changes with time. Dye binding apparently occurs mainly via van der Waals forces and hydrogen bonds. Verhoeff's elastica stain is definitely not specific for elastin and is inferior to orcein and resorcin-fuchsin because of the required differentiation with its inherent bias to produce patterns which conform to expectations. However, Verhoeff's elastica stain is far superior to other metal-hematein technics for myelin sheaths. The combined Verhoeff-picro-Sirius Red F3BA stain can be performed in 30 min and does not require differentiation. It is therefore suggested to reclassify Verhoeff's elastica stain as a method for myelin sheaths.     

On the mechanism of Verhoeff's elastica stain: A convenient stain for myelin sheaths

Summary Verhoeff (1908) recommended an iron-hematein formula containing Lugol's solution for demonstration of elastic tissue; sections are differentiated until desired staining patterns are obtained. Verhoeff's stain colored a variety of tissue structures and showed higher substantivity for myelin sheaths than for elastin. Addition of HCL or omission of Lugol's solution decreased or abolished coloration of pseudo-elastica and thus enhanced selectivity for elastin. Substitution of Fe⁺⁺ for Fe⁺⁺⁺ abolished dye binding by elastin.A review of chemical data indicated interaction of components of Lugol's solution with the dye. Hematein and Fe⁺⁺⁺ form a variety of cationic, anionic and non-ionic chelates; the ratio of these compounds changes with time. Dye binding apparently occurs mainly via van der Waals forces and hydrogen bonds.Verhoeff's elastica stain is definitely not specific for elastin and is inferior to orcein and resorcin-fuchsin because of the required differentiation with its inherent bias to produce patterns which conform to expectations. However, Verhoeff's elastica stain is far superior to other metal-hematein technics for myelin sheaths. The combined Verhoeff-picro-Sirius Red F3BA stain can be performed in 30 min and does not require differentiation. It is therefore suggested to reclassify Verhoeff's elastica stain as a method for myelin sheaths.     

Resorcin Fuchsin Staining of Neurosecretory Cells

The resorcin fuchsin staining solution was prepared by dissolving 1 gm of the dry dye (Chroma) in 98 ml of 70% ethanol acidified by 2 ml of concentrated HCI. When applied to paraffin sections of vertebrate hypothalamus fixed in a modified Bouin's fluid (0.5% trichloroacetic acid replacing 5% acetic), the solution stained neurosecretory cells in a manner comparable to staining by Gomori's aldehyde fuchsin. The resorcin fuchsin solution requires no ripening and is said to keep for months. It showed no deterioration in the 20 day period of testing. Optional fixatives are: unmodified Bouin's, Heidenhain's SUSA, and alcoholic trichloroacetic acid.