Fixative evaluation and histologic appearance of embryonic rodent tissue

Histopathologic study of early hamster embryos was carried out after fixation in Zenker's solution, alcoholic formalin, Bouin's fluid, 10% neutral buffered formalin, or 3% glutaraldehyde and staining with hematoxylin and eosin. Fixation in Zenker's fluid followed by postfixation in neutral buffered formalin provided superior preservation of normal embryonic subcellular detail as compared to the other candidate processing techniques.     

Stain Technology: Fixative Evaluation and Histologic Appearance of Embryonic Rodent Tissue

Histopathologic study of early hamster embryos was carried out after fixation in Zenker's solution, alcoholic formalin, Bouin's fluid, 10% neutral buffered formalin, or 3% glutaraldehyde and staining with hematoxylin and eosin. Fixation in Zenker's fluid followed by postfixation in neutral buffered formalin provided superior preservation of normal embryonic subcellular detail as compared to the other candidate processing techniques.     

Histochemical Aspects of the Affinity of Mast Cell Granules for Night Blue

The affinity of mast cell granules for night blue was studied in fresh and fixed rat lip, dog mast cell tumor, normal human ileum, and human mast cell and carcinoid tumors. Fixatives used were 10% formalin, 1% trichloracetic acid in absolute alcohol, and Zenker's and Bouin's fluids. Extractions of fresh tissue with hot water, acids, and bases removed the stainable material or prevented staining, but similar treatment of fixed tissue did not. Hot pyridine was without effect as was chloroform-methanol, but methylation blocked mast cell staining by night blue. Chromic acid oxidation and prolonged Zenker and Bouin fixation also prevented staining. Hyaluronidase treatment was without effect. Sulfhydryl and disulfide linkages were changed without altering the stainability.     

The Peracetic-Orcein-Halmi Stain: A Stain for Connective Tissues

A selective stain useful for the study of connective tissues is described. The stain demonstrates elastic and oxytalan fibers as well as fibrils in mucous connective tissues previously undescribed. Reticular fibers are not stained. The stain may be used on sections that have been fresh frozen or fixed in formalin or ethanol. Sections are deparaffinized, washed in absolute ethanol, oxidized in peracetic acid 30 min, washed in running water, stained in Taenzer-Unna orcein 15 min, 37°C, differentiated in 70% ethanol, washed in running water, stained in Lillie-Mayer alum hematoxylin 4 min, blued in running water, and counterstained 20 sec in a modified Halmi mixture of 100 ml distilled water, 0.2 gm light green SF, 1.0 gm orange G, 0.5 gm phosphotungstic acid and 1.0 ml glacial acetic acid. Sections are rinsed briefly in 0.2% acetic acid in 95% ethanol, dehydrated and mounted.     

Acetic Acid as a Diluent and Dehydrant in the Preparation of Whole, Stained Helminths

Aqueous 45% acetic acid can be used successfully as a diluent for Ehrlich's haematoxylin and for Horen's trichrome stain (chromotrope 2 R, 0.6 gm; phosphotungstic acid, 0.7 gm; glacial acetic acid, 1.0 ml; water, 100 ml). Glacial acetic acid is used for dehydration of the stained helminths, and followed by a glacial acetic acid-methyl salicylate series for clearing. The whole process can be completed within 1 hr, from fixation to the cleared specimen, with helminths up to 5 mm in length. A satisfactory fixative for Monogenea, Digenea and Acanthocephala is: 85% ethanol, 85; formalin (40% HCHO), 10; and glacial acetic acid, 5—parts by volume. For Cestoda, 5% aqueous formalin is preferable because they are hardened excessively by the alcoholic fixative.     

Orcein-Hematoxylin in Iodized Ferric Chloride as a Stain for Elastic Fibers, With Metanil Yellow Counterstaining

Autopsy and biopsy specimens of human skin were fixed overnight in alcoholic Bouin's solution, embedded in paraffin, cut at 7 μ, deparaffinized, hydrated to 70% alcohol, and treated as follows—stained 2 hours in a mixture consisting of: 0.2% orcein in 70% alcohol and 1% HC1 (conc.), 125 ml; 5% hematoxylin in absolute alcohol, 40 ml; 6% FeCl₃ in water, 25 ml; and aqueous I₂-KI (1:2:100), 25 ml—rinsed in distilled water until the excess stain was removed—differentiated in 1.2% FeCl₃, 5-15 sec—washed in running water, 5 min—differentiation completed in 0.01% HC1 acid-alcohol, 1 min—a dip in 95% alcohol—distilled water, 2 min—0.25% aqueous metanil yellow, 5-10 sec—a 95% alcohol dip—dehydrated in absolute alcohol, xylene, and mounted in a resinous medium. The technic combines the orcein of Pinkus' stain and the hematoxylin mixture of Verhoeff into a single staining solution and gives sharp and reliable results for both coarse and extremely delicate elastic fibers. These stain purple; nuclei, violet; and background, yellow. The stain allows the use of formalin, Bouin's fluid and Zenker-formol fixation. The results have been consistent in other primates as well as in man.     

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.     

Fixation and Staining of Planaria for Histological Study

Fixation and staining of planaria can affect the interpretation of histopathological changes following their exposure to various agents. We assessed several fixation protocols with various stains in planaria to determine an optimal combination. Planaria were fixed in each of the following: 10% neutral buffered formalin, 2.5%, glutaraldehyde, Bouin's, Zenker's, 70% ethanol, and relaxant. In addition, planaria were fixed in relaxant and postfixed in each of the fixatives above. Paraffin embedded sections from each fixation protocol were stained with hematoxylin and eosin (H & E), toluidine blue, periodic acid-Schiff (PAS), or phosphotungstic acld-hematoxylin (PTAH). Relaxant fixed planaria were also stained with Steiner's, Holmes, trichrome, Giemsa, Grocott's methenamine silver (GMS) and antibodies for intermediate filaments (cytokeratin, vimentin and desmin). Relaxant and Zenker's gave the best fixation with minimal artifacts. Formalin, glutaraldehyde, and ethanol were unacceptable because they caused contortions of the body, crenation, and a darkly pigmented epidermis. Gastroderm could be differentiated from stroma best when stained with H & E, toluidine blue and PTAH. Other organ systems differentially stained included the epidermis, marginal adhesion gland, nervous tissue, and muscle. PAS, Steiner's, Holmes, trichrome and the intermediate filament stains were not useful for planaria staining. The most morphological information was obtained with relaxant fixative and a combination of sections stained with H & E and PTAH.     

A Modified One-Step Trichrome Stain for Demonstration of Fine Connective Tissue Fibers

Gomori's one-step trichrome procedure was modified to improve coloration of fine connective tissue fibers. Paraffin sections from tissues fixed in alcohol, acetone, Zenkerformol, 10% formalin, Kaiserling's or Carnoy's fluid were mordanted 1 hr at 56 C in Bouin's solution, stained 1 min in a trichrome solution (chromotrope 2R-phosphomolybdic acidaniline blue WS) adjusted to pH 1.3 with HCl, rinsed in 1% aqueous acetic acid, dehydrated and covered. Collagen, reticulum fibers, basement membranes, ring fibers around splenic sinuses, intercalated discs in cardiac muscle and cartilage were colored blue. Nuclei, cytoplasm, fibrin, muscle fibers and elastic fibers were stained red. Pretreatment of sections with Bouin's solution enhanced the affinity of tissues for chromotrope 2R and was found essential for satisfactory coloration of material fixed in alcohol, acetone, formalin or Carnoy's fluid. Because this method does not require differentiation, it gave uniform results even in the hands of inexperienced laboratory trainees. No fading was observed in sections stored for more than 8 yr.     

Effect of fixation on the amplification of nucleic acids from paraffin-embedded material by the polymerase chain reaction.

Amplification of nucleic acids from paraffin-embedded material by the polymerase chain reaction (PCR) is increasingly being used to detect viral genomes and oncogene mutations. To determine the effect of fixation on the preservation of the nucleic acids, we fixed two randomly chosen fresh pathology specimens in formalin, B-5, Bouin's, Zenker's, ethanol, and Omnifix for 6, 24, 48, 72, and 168 hr (1 week), and then embedded the tissue in paraffin. Oligonucleotide primers specific for the cytoplasmic-beta-actin gene were chosen to span an intron such that amplification yielded a product of 250 BP for DNA and 154 BP for RNA. A single 6-microns section was cut from each paraffin block, deparaffinized, and then subjected to 30 rounds of amplification for either DNA or RNA. On amplifying DNA, consistent product was seen in the ethanol and Omnifix specimens up to 72 hr of fixation time, whereas variable product was seen with formalin or Zenker's fixation; all specimens fixed in Bouin's or B-5 were negative. On amplifying RNA, a product could be detected even after 1 week of fixation in ethanol or Omnifix, and after 48 hr in the formalin-fixed tissue. The Zenker's-fixed tissues gave variable results, and the Bouin's and B-5 tissues gave consistent results only after 6 hr of fixation. We therefore conclude that choice of fixative and fixation time are critical factors influencing the outcome of PCR amplification of nucleic acids from paraffin-embedded material.     

A simple method for histochemical demonstration of viral inclusion bodies in cell monolayers in microtitration plates

The present paper describes a Bouin's-formalin fixation and Giemsa staining procedure for demonstrating viral cytoplasmic inclusion bodies in cellular monolayers in microtitration plates. Monolayers are fixed in Bouin's fixative for 15 min followed by 10% neutral buffered formalin fixation overnight. After fixation, the monolayers are stained with 4% (v/v) Giemsa stain. The method is superior to the separate use of formalin, methanol or Bouin's fixation-staining methods and compares favorably to immunocytochemical techniques for sensitivity.     

A Simple Method for Histochemical Demonstration of Viral Inclusion Bodies in Cell Monolayers in Microtitration Plates

The present paper describes a Bouin's-formalin fixation and Giemsa staining procedure for demonstrating viral cytoplasmic inclusion bodies in cellular monolayers in microtitration plates. Monolayers are fixed in Bouin's fixative for 15 min followed by 10% neutral buffered formalin fixation overnight. After fixation, the monolayers are stained with 4% (v/v) Giemsa stain. The method is superior to the separate use of formalin, methanol or Bouin's fixation-staining methods and compares favorably to immunocytochemical techniques for sensitivity.     

A Universal Stain for the Sex Chromatin Body

For the demonstration of the sex chromatin body in human tissues, fixation in 95% alcohol or modified Davidson's solution (95% alcohol, 30; formalin, 20; glacial acetic acid, 10; distilled water, 30) was best. The staining procedure chosen for most materials is the following: Mounted preparations are coated with celloidin, hydrated, hydrolyzed 20 min in 52V HCl at 20-25°C, rinsed thoroughly in several changes of distilled water and transferred to a buffered thionin solution. This consists of 3 parts: (1) A saturated solution of thionin in 50% alcohol (filtered); (2) Michaelis buffer: sodium acetate (3 H₂O), 9.714 gm; sodium barbiturate, 14.714 gm; CO₂-free distilled water, 500 ml; and (3) 0.1N HCl. To make the staining solution, mix 28.0 ml of the buffer solution with 32.0 ml of 0.1N HCl and bring the total volume to 100.0 ml with the thionin solution. Its pH should be 5.7 × 0.2, and care should be exercised that no acid is carried over from the hydrolyzing solution, since this would progressively lower the pH. The staining time varies from 15 to 60 min, depending on the specimen, but the shortest time consistent with adequate staining gives the clearest preparations. Slides are rinsed in distilled water and 50% alcohol and allowed to remain in 70% alcohol until the heavy clouds of stain cease to appear. Differentiation is completed in 80% and 95% alcohol, followed by dehydration in absolute alcohol, clearing in xylene and applying a cover glass with a synthetic resin (G. T. Gurr's DePeX was used). The sex chromatin is deep blue-violet and sharply contrasted against the lightly colored particulate chromatin of the nucleus. Cytoplasm remains unstained but fibrin and related structures show metachromasia. Chromosomes are well demonstrated if present. The method works on all types of tissues, is simpler and quicker than the Feulgen method, and often yields superior results.     

Staining Tissue of the Central Nervous System with Luxol Fast Blue and Neutral Red

The tissue is fixed in 10% neutral saline formalin for 1 day to 3 wk depending on the size of the block, dehydrated and embedded in paraffin. The sections are stained at 57° C for 2 hr, then at 22° C for 30 min, in a 0.0125% solution of Luxol fast blue in 95% alcohol acidified by 0.1% acetic acid. They are differentiated in a solution consisting of: Li₂CO₃, 5.0 gm; LiOH-H₂O, 0.01 gm; and distilled water, 1 liter at 0-1° C, followed by 70% alcohol, and then treated with 0.2% NaHSO₃. They are soaked 1 min in an acetic acid-sodium acetate buffer 0.1 N, pH 5.6, then stained with 0.03% buffered aqueous neutral red. Sections are washed in distilled water, 1 sec, then treated with the following solution: CuSO₄·5H₂O, 0.5 gm; CrK(SO₄)₂·12H₂O, 0.5 gm; 10% acetic acid, 3 ml; and distilled water, 250 ml. Dehydration, clearing and covering complete the process. Myelin sheaths are stained bright blue; meninges and the adventitia of blood vessels are blue; red blood cells are green. Nissl material is stained brilliant red; axon hillocks, axis cylinders, ependyma, nuclei and some cytoplasm of neuroglia, media and endothelium of blood vessels are pink.     

Acceleration of Mallory's Phosphotungstic Acid-Hematoxylin Staining for Skeletal Muscle Fixed in Formalin

The staining time for mammalian skeletal muscle fixed in neutral phosphate-buffered formalin was shortened from 12-24 hr to 10-30 min. The permanganate-oxalate sequence was omitted although oxidation by periodic acid or with iodine was found to be necessary. The material was embedded in paraffin and cut 6 μ or less. Deparaffinized sections were treated with 1% alcoholic iodine for 10 rain followed by 5% Na₂S₂O₃ for 2 min and placed in an oven at 60 C for 10-30 min to stain in a preheated mixture of 50 ml of ripened Mallory's phosphotungstic acid-hematoxylin and 1 ml of 2% phosphomolybdic acid. Experiments with fixation showed that the staining procedure followed Zenker's fluid successfully but not Bouin's fluid. Oxidation by KMnO₄ was effective only after Zenker fixation; oxidation by CrO₃ was unsuccessful.     

A One-Solution Triacid General Stain Which Differentiates Oxygenated from Non-Oxygenated Red Blood Corpuscles

Tissues from representative mammals, amphibia and invertebrates were fixed for 5-24 hr in either an aqueous solution of 8% p-toluene sulfonic acid (PTSA) or in 10% formalin to which 5 gm PTSA/100 ml had been added, and processed through embedding in polyethylene glycol 400 distearate in the usual manner. Sections cut at 4-6 μ were floated on 0.2% gelatin containing 1.25% formalin, and spread and dried on slides at a temperature not exceeding 25 C. Wax was removed with xylene, and the sections brought to water through ethanol as usual. The working staining solution was made from three stock solutions: A. Chlorantine fast blue 2RLL, 0.5%; B. Cibacron turquoise blue G-E, 0.5%; C. Procion red M-P, 0.5%—each of which was dissolved in 98.5 ml of distilled water to which 0.5 ml of glacial acetic acid and 0.5 ml of propylene glycol monophenyl ether (a fungicide) had been added. For use, the three solutions were mixed in the proportions: A, 3; B, 4; and C, 3 volumes. Staining time was uncritical, 10-30 min usually sufficing for 6 μ, sections. The chief feature of the staining is the differentiation of oxygenated and nonoxygenated red blood corpuscles, in reds and blues respectively. Connective tissue stained blue or blue-green and mucin, green. Nuclei and cytoplasm stain according to their condition at the time of fixation. The mixed stain keeps well, remaining active after 2 yr of storage.     

A Sudan Black B Myelin Stain for Peripheral Nerves

Blocks of fresh issue were fixed 2 or more days in: cobalt sulfate (or nitrate), 1 gm; distilled water, 80 ml; 10% calcium chloride, 10 ml; and formalin, 10 ml. The fixed tissue was washed thoroughly in tap water, embedded in gelatin, frozen sections cut, and mounted on slides with gelatin adhesive. The sections were stained 15-30 min in a saturated, filtered solution of Sudan black B in 70% alcohol, differentiated in 50% alcohol under microscopic observation, and a cover glass applied with glycerol-gelatin. In thick (50-100 μ) sections, myelin stained green to gray-green and this allowed easy differentiation between nerves and other tissue elements.     

A Ribonuclease-Gallocyanin Stain for Sexing Skin Biopsies

Skin biopsies for sexing can be fixed best in 10-15% aqueous formalin or this solution saturated with HgCl₂. Bouin's fluid and all chromate mixtures should be avoided. Celloidin-paraffin double embedding is recommended but not essential. Sections are brought to water, mercurial residues removed if necessary, and then washed in distilled water. They are incubated at 37°C in a ribo-nuclease solution: approximately 1 mg of ribonuclease powder (Light's) in 100 ml of glass-distilled water; boiled 3-5 sec after dissolving, and kept in a refrigerator (usable about a week). The sections are rinsed and incubated at 37°C overnight in gallocyanin-chromalum (Einarson, 1951) made as follows: Dissolve 5 gm of chromalum in 100 ml of distilled water, add 0.15 gm of gallocyanin, shake thoroughly, heat slowly and boil 5 min; cool, filter, and wash through the filter with distilled water until the filtrate reaches 100 ml. This solution is usable at once and keeps at least a month. Sections should be dipped in acid alcohol to clean (optional), but no attempt made to differentiate them, and washed in tap water. Dehydration, clearing and covering complete the process. The method is nearly as precise as the Feulgen and more convenient and reliable for routine use on miscellaneous material.     

Histochemical Demonstration of Pyrophosphatase

Fresh tissue slices were fixed in 5% formalin containing 0.9% NaCl for 10-20 min and frozen sections therefrom floated for 3 hr at 37°C on an incubating mixture made as follows. Sodium pyrophosphate (Na₄P₂O₇-12H₂O), 1.088 gm was dissolved in 20-30 ml of distilled water and to this was added ferric chloride (FeCl₃-6H₂O), 0.61 gm dissolved in 10-15 ml of water. The precipitate was just dissolved by cautiously adding 5-10% aqueous Na₂CO₃ solution and the pH adjusted to 7.2 with 1N HCl. The volume was made up to 100 ml and 0.9 gm of NaCl added. Before use, 1 ml of 10% Mg(NO₃) was added. After incubation, sections were washed 10-15 min in 0.9% NaCl, then mounted on glass slides and air-dried. When dry, the slides were immersed in 0.9% NaCl containing 0.2-0.5% ammonium sulfide for 2-3 min, then dehydrated rapidly through graded alcohols, cleared, and covered in balsam. Sites of pyrophosphatase activity stained in various shades of green. Acid pyrophosphatase also was histochemically demonstrated by the same principle, excepting that the substrate solution was adjusted to pH 3.7-4.0 with acetate buffer. The pattern of distribution of pyrophosphatase and glycerophosphatase was almost identical.     

Staining Sex Chromatin; Biebrich Scarlet and Fast Green Fcf as a Mixture Versus Their Use in Sequence

Human skin was fixed in Davidson's solution (95% alcohol, 35; formalin, 20; glacial acetic acid, 10; and distilled water, 35—parts by volume) and sections prepared through paraffin embedding in the usual manner. Stock stains were: I(BS)—Biebrich scarlet, 1 gm in 100 ml of 50% alcohol to which 0.3 gm of phosphotungstic acid and 5 ml of glacial acetic acid were added—and II(FG)—fast green, 0.5 gm in 85 ml of 50% alcohol to which 0.3 gm of phosphotungstic acid, 0.3 gm of phosphomolybdic acid, and 15 ml of glacial acetic acid were added. Experimental staining solutions were prepared in the following proportions of stock BS to stock FG—1:1, 2:1, 3:1, 1:2 and 1:3. Sections were brought to 50% alcohol and stained for 15, 20, 25 and 30 min in each of the five BS-FG mixtures, rinsed in 50% alcohol, then dehydrated in 70%, 95%, and absolute alcohol, 2 min each; cleared in xylene, and covered in balsam. The 2:1 (optimum proportion) combination of BS with FG, acting for 20 min, yielded 97% sex chromatin-positive nuclei in female material. If sections were stained in stock solution BS for 2 min, they could be differentiated by a 20 min treatment in the mordanting component of stock FG (without dye) to give a one-color stain. Such stains gave about the same percentage of sex chromatin-positive nuclei as those obtained by the regular two-color procedure. These modifications are simpler, more rapid, and yield results comparable to previously employed techniques.