William M. Shanklin

Luxol Fast Blue as a Selective Stain for Alpha Cells in the Human Pituitary

Human pituitaries fixed in Bouins fluid or 10% formalin were stained by the PAS, Masson trichrome and luxol fast blue methods. By comparing adjacent sections stained by these 3 methods it was found that the alpha cells which are PAS negative, but stained red by the Masson trichrome method, were intensely stained by luxol fast blue. The beta cells which are stained blue by the PAS and Masson methods were not stained by luxol fast blue. Similar observations were made on a series of pituitaries from 8 other mammalian species. It is concluded that luxol fast blue is a selective stain for alpha cells in the mammalian pituitary.

Luxol Fast Blue Combined With the Periodic Acid-Schiff Procedure for Cytological Staining of Kidney

Rat kidneys fixed in Regauds fluid were stained by luxol fast blue (LFB), by the periodic acid-Schiff (PAS) method, and by LFB combined with PAS. When used separately the PAS stains the brush border, hyaline droplets and basement membranes reddish, the LFB stains the mitochondria, hyaline bodies and basement membranes greenish-blue. The combined LFB-PAS method stains the brush border reddish and the mitochondria dark blue, while the hyaline bodies and basement membranes are purplish colored. The LFB-PAS method provides color contrasts which show cytological features that are particularly significant in the kidney.

Concentric Layers in the Granules of Human Nervous Lipofuscin Demonstrated by Silver Impregnation

Representative pieces of human brain were fixed in 10% formalin, embedded in paraffin and sectioned at 5 μ. Paired sections were used, one of which was oxidized in equal parts of 0.5% potassium permanganate and 0.5% sulfuric acid for 1-2 min, while the other was left unoxidized. Both the oxidized and unoxidized sections were impregnated with silver diamine. The lipofuscin granules in the nerve cells appeared as small intensely stained black dots, surrounded by a clear unstained zone, in the unoxidized sections, while in the oxidized sections there was an outer ring of intensely blackened material surrounding a central unstained dot.

Histochemistry of the Cerebral Cortex from a Case of Amaurotic Family Idiocy

1. The rate of myelin figure formation streaming out of the tissue indicated the presence of large amounts of unbound lipids in the tissue, probably as a result of degenerative processes of the myelin sheaths. 2. Sudan black B and PAS stained abundant myelin figures in the fresh frozen sections, thereby supporting the above conclusion. 3. In formalin-fixed, paraffin sections, Nile blue A, luxol fast blue and Sudan black B stained abundant granular material in the neuronal cytoplasm. 4. The Da Fano cobalt nitrate method demonstrated greatly hypertrophied Golgi networks. 5. Silver diammine impregnation revealed the presence of abundant argentophilic granular material in the cytoplasm of the neurons. 6. Nissl stains such as cresyl violet and gallocyanin failed to demonstrate formed Nissl bodies, however numerous RNA containing granules were distributed throughout the entire neuronal cytoplasm. 7. Among the lipid solvents used as fixatives methanol-chloroform was most effective in removing the material demonstrated by the above staining methods. An exception was the material in the Golgi meshwork. 8. Numerous neurofibrils were demonstrated in the section while normal myelin was not present.

Concurrent Demonstration of Desoxyribose Nucleic Acid and 1,2-Glycols

Sections from rat tissue were fixed in 10% formalin in 90% alcohol and placed in a 1.0% suspension of sodium bismuthate (NaBiO3) in 40% phosphoric acid for 40 minutes at room temperature. Bismuth phosphate crystals were removed with 2N HCl. The sections were next placed in the Schiff reagent for 20 minutes. By this method the DNA was hydrolyzed by the phosphoric acid and the 1,2-glycols were oxidized by the NaBiO3. In both cases aldehyde groups were released and subsequently stained by the Schiff reagent. A photomicrograph is included demonstrating the nuclei, goblet cells, striated border and basement membrane stained by this combined method.

STAINING NEUROGLIA WITH SILVER DIAMMINO- HYDROXIDE AFTER SENSITIZING WITH SODIUM SULFITE AND EMBEDDING IN PARAFFIN'

Pieces of brain are fixed in formalin ammonium bromide for about 4 days at room temperature, and given the following treatment: After washing, dehydrating and clearing, embed in paraffin, section and mount. Deparaffinize sections and pass through graded alcohols to water. Sensitize in 5% sodium sulfite for 2 hours, wash in distilled water and impregnate with silver diamminohydroxide solution 2-5 minutes at room temperature. Reduce in 2% formalin, wash in distilled water and tone in gold chloride. Fix in 5% hypo, counterstain with 1% picric acid, dehydrate and cover in balsam. Equally good results are obtained by impregnating with Hortegas strong silver carbonate. The microglia, oligodendroglia, fibrous and protoplasmic astrocytes in the cat, rabbit, newborn and adult human are successfully stained by this method.

Staining Pineal Parenchyma by A Modified Hortega Method After Paraffin Embedding

Fresh pineal glands are fixed in 10% formalin at room temperature for about 3 days. After washing, dehydrating and clearing they are embedded in paraffin, sectioned and mounted. The tissues are placed in 10% silver nitrate for 24 hours, washed and impregnated in strong silver carbonate. The sections are reduced in 10% formalin, washed and toned in gold chloride, fixed in 5% hyposulfite, counterstained with erythrosin and mounted in Canada balsam. The processes of the pineal parenchymatous cells of the sheep, cow and man have been successfully stained by this method.

The Hortega Silver Carbonate Method for Staining Pituicytes After Paraffin Embedding

In three papers published on pituicytes, of the ox by Bucy (1930), of the human by Shanklin (1940), and of the horse by Vazquez-Lopez (1942) the pituitaries were sectioned by the freezing method and stained by the Hortega silver carbonate technic. Since that time, as a routine procedure in our laboratory, frozen sections have been replaced by paraffin which in no way interferes with the Hortega silver carbonate staining.

Application of Phase-Contrast Microscopy to Schiff-Positive Material

It was observed that ground substance between the smooth muscle fibers in cerebral arteries stained by periodic acid-Schiff (PAS) was red as seen by ordinary bright-field microscopy (BF), but blue as observed by phase-contrast microscopy (PC). The basement membranes in the small intestine and around the kidney tubules, as well as the striated borders of the intestinal epithelium and the brush borders of the kidney tubules, were seen in blue when stained by PAS and observed by PC. The cytoplasm of PAS stained liver cells, when observed by PC, had irregular shaped areas of blue interspersed between the red material. This blue color was seen by PC after PAS, ninhydrin-Schiff and the Feulgen procedures. Our evidence suggests that this phenomena is characteristic of Schiff-positive material. Digestion by various enzymes: malt diastase, testicular hyaluronidase, collagenase, pepsin, pectinase, trypsin and DNase showed different effects on ground substance, liver cells, basement membranes, and brush and striated...

Polynuclear count of the alouites

Abstract 1. 1. A polynuclear index of 1·48 is reported for 323 alouites. 2. 2. Although diseases may account in part for this low index, climatic and other undetermined factors appear to play an important role.