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.     

Wool Fibres: Sectioning and Staining, Differentiation of Ortho and Paracortex

A double embedding technique for tangential sectioning of hair and wool fibres is as follows: The cleaned fibre bundle is attached to a U-shaped, 16 gauge, tinned-copper wire frame with collodion adhesive, soaked in 6% nitrocellulose for 1 hr, and treated with chloroform for 2 hr. The hardened bundle is then cut fom the wire support and embedded in paraffin-beeswax, 95:5. Sectioning is at 6-8 μ. The use of 2% orange G or saturated aqueous picric acid for quantitative study of the fibres, and the demonstration of wool fibre cortical fractions by staining with polychrome methylene blue after oxidation of the sectioned fibres in a solution of formic acid (98/100 w/v) 25 ml; distilled water, 65 ml; and H₂O₂ (30% w/v), 10 ml, for 1 hr, is recommended.     

Critical Staining of Pancreatic Alpha Granules with Phosphotungstic Acid Hematoxylin

Mammalian pancreatic alpha granules were differentially stained with phosphotungstic acid haematoxylin. Paraffin sections were dewaxed and hydrated, oxidised 5-40 sec in freshly prepared 0.3% KMnO₄ acidified with 0.3% (w/v) H₂SO₄, decolourised in 4% potassium metabisulphite, mordanted 20 min to 2 hr in 4% iron alum, stained in phosphotungstic acid haematoxylin 16-48 hr, rinsed in 95% ethanol until no stain runs from the tissue, dehydrated in absolute ethanol, cleared in xylene, and covered in synthetic resin. Advantages of this procedure are: (1) consistent, reproducible staining; (2) applicability to all the common laboratory mammals and man; (3) wide latitude at each stage, permitting its use as a routine method; and (4) superior visualization of alpha granules, due to suppression of background staining and absence of glare. For fixation, formalin-acetic or Bouin's solution is recommended.     

Silver Impregnation of the Golgi Apparatus, with Subsequent Nitrocellulose Embedding

The appearance of silver impregnation of the Golgi apparatus can be enhanced by the use of nitrocellulose as an embedding medium. Fixation of 1.5 mm thick pieces of fresh tissue for 8 hr in: glycine, 1.7 gm; 15% formalin, 100 ml; HNO₃, conc., 0.5 ml, at pH 2.6 followed by rinsing in water, 4 hr in 1.5% AgNO₃, another rinse, and 2 hr reduction in 1.5% hydroquinone in 15% formalin. This staining procedure yields consistently good results for rat, rabbit, and human tissues. Low-viscosity nitrocellulose embedding is done by infiltrating at 56 C in 7% nitrocellulose for 0.5 hr, 15% for 4 hr, and 27% for 1 hr. The nitrocellulose is hardened 2 hr in chloroform, after which, sections as thin as 5 μ can be cut on a sliding microtome. Gold toning and counterstaining can be done with the tissue affixed to the slide. The Golgi apparatus is stained dark brown to black, and there is better preservation of cellular detail than in tissues processed in paraffin.     

Selective Staining of Neurosecretory Material in Semithin Epoxy Sections by Gomori's Aldehyde Fuchsin

The epoxy resin was removed from semithin (1 μm) sections by immersing them for 30 sec in sodium methoxide (Mayor et al., J. Biophys. Biochem. Cytol., 9: 909-10, 1961) and then processed as follows: (1) left for 1-3 hr at 60 C in a mixture of formalin, 25 ml; glacial acetic acid, 5 ml; CrO₃, 3 gm; and distilled water, 75 ml: (2) oxidized 10 min in a 1:1:6 v/v mixture of 2.5% KMnO₄, 5% H₂SO₄ and distilled water: (3) bleached in 1% oxalic acid, and (4) stained for 15 min in aldehyde fuchsin, 0.125% in 70% alcohol, or in a 1% aqueous solution of toluidine blue. The neurosecretory material is selectively stained.     

Hematoxylin Staining of Tissues Embedded in Epoxy Resins

Sections of 0.5-2 μ thickness are affixed to slides with albumen adhesive, thoroughly dried, and placed in xylene or toluene for 1 hr, then brought through ethanol to water. Sections of tissue fixed in O_sO₄ are treated first in 0.1% KMnO₄, then with 1.0% oxalic acid, and after rinsing, incubated at 60 C for 12-24 hr in hematoxylin (Harris's or Ehrlich's) and counterstained 10-15 min with 0.5% phloxine B. Permanent preparations are made by clearing and mounting in a synthetic resin. The method requires only easily available reagents and is suitable for routine processing of epoxy sections.     

Saponification of Methylated Mucosubstances at Low Temperatures

A fresh 1% solution of KOH in 70% ethanol in 2 hr at 2-4 C restores basophilia to methylated acid mucosubstances satisfactorily without detaching or damaging tissue sections. A 0.5% solution of Ba(OH)₂ under the same conditions gives results nearly as good, but NaOH and KMnO₄ are unsatisfactory.     

Epoxy Embedding, Sectioning and Staining of Plant Material for Light Microscopy

By using a formula which gives a relatively soft epoxy embedding medium, it is possible to cut sections of plant material with a sliding microtome equipped with a regular steel knife. Blocks having a cutting face of 10 × 10 mm, giving sections of 4-10 μm, can be used. Tissues are fixed in Karnovsky's fluid, postfixed in 1 or 2% OsO₄, embedded in Spurr's soft epoxy resin, Araldite, or Epon mixtures. 5% KMnO₄, followed by 5% oxalic acid, then neutralized in 1% LiCO₃, are used to mordant the sections. Some of the stains used are Mallory's phosphotungstic acid-hemotoxylin, acid fuchsin and toluidine blue, or toluidine blue. Mounting is done with whichever soft epoxy resin was used in casting the blocks.     

Selection for Electron Microscopy of Specific Areas in Large Epoxy Tissue Sections

Tissue blocks 2 × 2 × 0.4 cm were fixed 6-24 hr in phosphate-buffered 6% glutaraldehyde then sliced to 2 × 2 × 0.1 cm and rinsed in phosphate buffer for at least 12 hr. Fixation was continued for 2 hr in phosphate-buffered 1-2% OsO₄. The slices were dehydrated, infiltrated with Araldite, and embedded in flat-bottomed plastic molds. Sectioning at 4-8 μ with a sliding microtome was facilitated by addition of 10% dibutylphalate to the standard epoxy mixture. The sections were spread on water and attached to coverslips by drying, then heating to 80 C for 1 min. Staining 2 min with 1-3% KMnO₄ and temporary mounting in glycerol on a slide allowed the desired area for electron microscopy to be selected and marked. This area was then cemented to the facet of a conventional epoxy casting with a drop of epoxy resin (without added dibutylphthalate). After polymerization, the coverslip was removed by quick cooling leaving a flat re-embedded portion of the original section. This portion was viewed by transillumination in a dissecting microscope and trimmed of surplus tissue. Ultrathin sections for electron microscopy were obtained in the usual manner.     

Handling Germinated Pollen on Millipore Membrane During the Feulgen and Autoradiographic Procedures

To prevent loss of pollen during the Feulgen's procedure, the pollen was grown on an autoclaved membrane filter (Millipore AA WP 025 00) in contact with a sterilized medium containing agar 0.5-1%, sucrose according to the genus (Malus 0.3-0.5 M; Persica and Tulipa 0.4 M), and H₃BO₃, 0.01%. To fix the germinated pollen of most species, the membrane was placed for 2 hr to overnight at 2-4 C on filter paper wet with the following mixture: OsO₄, 1 gm; CrO₃, 1.66 gm; and distilled water, 233 ml. To fix Persica pollen, 10% of glacial acetic acid had to be added to the fixative. Washing with distilled water and bleaching with a mixture of 3% H₂O₂ and sat. aq. ammonium oxalate, 1:1, were performed also on filter paper. Similarly, the preparation was processed for Feulgen staining by use of pieces of filter paper wet with the required fluids. Hydrolysis preceding the Schiff's reagent was performed at room temperature with 5 N HCl for 18 min. The differentiation after the Schiff's action was with 2% K₂S₂O₅ buffered to pH 2.3 with 9 ml of phosphate buffer (KH₂PO₄, 1.4 gm; conc. HCl, 0.35 ml and distilled water to make 100 ml). The stained pollen was floated off the membrane with a drop of glacial acetic acid to a gelatinized or an albumenized slide, and squashed. When the coverslip is removed the preparation may be either dehydrated and mounted or coated with autoradiographic film.     

Differentiated Staining of Osmium Tetroxide-Fixed, Vestopal-w-Embedded Tissue in thin Sections

Tissues were fixed at 20° C for 1 hr in 1% OsO₄, buffered at pH 7.4 with veronal-acetate (Palade's fixative), soaked 5 min in the same buffer without OsO₄, then dehydrated in buffer-acetone mixtures of 30, 50, 75 and 90% acetone content, and finally in anhydrous acetone. Infiltration was accomplished through Vestopal-W-acetone mixtures of 1:3, 1:1, 3:1 to undiluted Vestopal. After polymerisation at 60° C for 24 hr, 1-2 μ sections were cut, dried on slides without adhesive, and stained by any of the following methods. (1) Mayer's acid hemalum: Flood the slides with the staining solution and allow to stand at 20°C for 2-3 hr while the water of the solution evaporates; wash in distilled water, 2 min; differentiate in 1% HCl; rinse 1-2 sec in 10% NH,OH. (2) Iron-trioxyhematein (of Hansen): Apply the staining solution as in method 1; wash 3-5 min in 5% acetic acid; restain for 1-12 hr by flooding with a mixture consisting of staining solution, 2 parts, and 1 part of a 1:1 mixture of 2% acetic acid and 2% H₂SO₄ (observe under microscope for staining intensity); wash 2 min in distilled water and 1 hr in tap water. (3) Iron-hematoxylin (Heidenhain): Mordant 6 hr in 2.5% iron-alum solution; wash 1 min in distilled water; stain in 1% or 0.5% ripened hematoxylin for 3-12 br; differentiate 8 min in 2.5%, and 15 min in 1% iron-alum solution; wash 1 hr in tap water. (4) Aceto-carmine (Schneider): Stain 12-24 hr; wash 0.5-1.0 min in distilled water. (5) Picrofuchsin: Stain 24-48 hr in 1% acid fuchsin dissolved in saturated aqueous picric acid; differentiate for only 1-2 sec in 96% ethanol. (6) Modified Giemsa: Mix 640 ml of a solution of 9.08 gm KH₂PO₄ in 1000 ml of distilled water and 360 ml of a solution of 11.88 gm Na₂HPO₄-2H₂O in 1000 ml of distilled water. Soak sections in this buffer, 12 hr. Dissolve 1.0 gm of azur I in 125 ml of boiling distilled water; add 0.5 gm of methylene blue; filter and add hot distilled water until a volume of 250 ml is reached (solution “AM”). Dissolve 1.5 gm of eosin, yellowish, in 250 ml of hot distilled water; filter (solution “E”). Mix 1.5 ml of “AM” in 100 ml of buffer with 3 ml of “E” in 100 ml of buffer. Stain 12-24 hr. Differentiate 3 sec in 25 ml methyl benzoate in 75 ml dioxane; 3 sec in 35 ml methyl benzoate in 65 ml acetone; 3 sec in 30 ml acetone in 70 ml methyl benzoate; and 3 sec in 5 ml acetone in 95 ml methyl benzoate. Dehydrated sections may be covered in a neutral synthetic resin (Caedax was used).     

A Tribasic Stain for Thin Sections of Plastic-Embedded, OsO4-Fixed Tissues

Thin (0.5-1 μ) sections of plastic-embedded, OsO₄-fixed tissues were attached to glass slides by heating to 70 C for 1 min. A saturated solution combining toluidine blue and malachite green was prepared in ethanol (8% of each dye) or water (4% of each dye). Methacrylate or epoxy sections were stained in the ethanol solution for 2-5 min. The water solution was more effective for some epoxy sections (10-80 min). Epoxy sections could be mordanted by 2% KMnO₄, in acetone (1 min) before use of the aqueous dye, reducing staining time to 5-10 min and improving contrast. Aqueous basic fuchsin (4%) was used as the counter-stain in all cases; staining time varied from 1-30 min depending upon the embedding medium and desired effects, methacrylate sections requiring the least time. In the completed stain, nuclei were blue to violet; erythrocytes and mitochondria, green; collagen and elastic tissue, magenta; and much and cartilage, bright cherry red. Sections were coated with an acrylic resin spray and examined or photographed with an oil-immersion lens.     

Differentiation of Cells in the Hypophysis and in Pancreatic Islets

Deparaffinized, 3-5μ, sections are brought to water, oxidized 3.5 min in an equal-parts mixture of 0.3% H₂SO₄ and 0.3% KMnO₄, and decolorized with 4% K₂S₂O₅. Nuclei are stained with Gomori's (1939) chromium-hematoxylin, and cell granules with Cason's (1950) mixture. The eosinophilic cells of the hypophysis and the alpha cells of pancreatic islets (of Langerhans) stain carmine red; basophilic and beta cells stain dark blue. Heidenhain's _susa is the most suitable fixative for hypophysis, Bouin's fluid for pancreas; but a satisfactory result is obtainable after formalin-sublimate or plain formalin. Besides studying the ratio of the cell types in the hypophysis or in pancreatic islets, it is possible to estimate the granule content of the cells. The method works on human autopsy material provided fixation of hypophysis occurs within 24 hr, and. pancreas, 12 hr post mortem, and it is suitable also for quite fresh organs.     

Intensification of Osmium Staining by p-Phenylenediamine: Paraffin and Epon Embedding; Lipid Granules in Renal Medulla

Tissue which had been fixed in 4% glutaraldehyde and postfixed in 2% OsO₄ was subsequently treated with p-phenylenediamine, either in the block prior to embedding in paraffin or Epon or, in the case of Epon-embedded material, after sectioning for light microscopy. The p-phenylenediamine was best used as a 0.8-1% solution in 70% alcohol. The p-phenylenediamine caused a very considerable intensification of staining of any cell components; this intensification of staining was particularly marked in the case of the lipid granules of renal medulla.     

Preparing Specimens of Bone and Teeth for Cutting by the Paraffin Method

A method of preparing bone or teeth for sectioning is described which involves the following steps: 48 hr. in 1:10 formalin; 24 hr. in 70% alcohol; decalcification for several days in 10% HNO₃; rinsing and transferring to 2% potassium alum for 12 hr.; rinsing and treating with 5% NaHCO₃ (or Li₂CO₃) for 24 hr.; washing for 12-24 hr.; then passing through ascending grades of alcohol to xylene. In the case of developing teeth, a slightly different procedure is recommended: fixation in Heidenhain's Susa till hard tissue is decalcified; 24 hr. in 96% alcohol (with three changes); 24 hr. in absolute alcohol (with one change); clearing in xylene or chloroform, and embedding in paraffin.     

Rapid Preparation of Pollen and Spore Exines for Electron Microscopy

Modifications in preparation techniques of acetolyzed pollen and spore exines for electron microscopy have reduced preparation time from the conventional 16-71 hr to 4-5 hr or less. These modifications include: (1) reduction of agar concentration from 4% to 0.9%; (2) omission of graded alcohol dehydration, going directly to acetone immersion and resin infiltration; (3) reduction of three steps in resin infiltration to one; (4) polymerization of resin at 80-85 C for 4-5 hr or at 90-98 C for 45-90 min, as opposed to conventional polymerization at 60-80 C for 12-59 hr.     

A Copper Sulfate-Silver Nitrate Method for Nerve Fibers of Planarians

For staining in toto, planarians are fixed in a mixture of 10 ml of commercial formalin, 45 ml of 95% ethanol and 2 ml of glacial acetic acid. After treatment with 70% ethanol 3-10 days, they are washed in distilled water and immersed in 10% CuSO₄. 5H₂O for 3 hr at 50° C, transferred without washing to 1% AgNO₃ for 1.0-1.5 hr at 50° C; and then developed in: 10 ml of 1% pyrogallol, 100 ml of 56% ethanol and 1 ml of 0.2% nitric acid. Gold toning, 5% Na₂S₂O₃ and dehydration follow as usual. For staining sections, material is fixed in the same fixative, embedded in paraffin and sectioned at 10 μ. After bringing sections to water, they are immersed in 20% CuSO₄. 5H₂O for 48 hr at 37° C; then rinsed briefly in distilled water and placed in 7% AgNO₃ for 24 hr at 37° C. They are washed briefly in distilled water and reduced in: hydroquincne, 1 gm; Na₂SO₃, 5 gm and distilled water 100 ml. Gold toning, followed by 5% Na₂S₂O₃ and dehydration completes the process. Any counterstaining may follow.     

Improvement of the Golgi Method by pH Control

Experiments were made to test the influence of the pH of the fixing fluid (ranging from 1.0-8.1) and that of the chromating fluid (1.65-7.8) on subsequent silver impregnation. Brains of adult monkeys, cats, dogs, rabbits, guinea pigs, rats and mice were fixed by the pulsating-perfusion method of Haushalter and Bertram (1955), after first washing out the blood with saline-acacia solution of the same pH as that of the 10% formol-saline-acacia used for fixation. The brains were sliced to 3 mm thickness and the slices further fixed 1-2 days in 10% formalin with its pH adjusted to that of the preceding fixing fluid. Chromation for 1 day followed, with acidified ZnCrO₄ at pH 1.65-5.9 and buffered Na₂CrO₄ at pH 7.8. Silvering for 2 days in 0.75% AgNO₃ solution effected the staining. Dehydration, paraffin embedding and sectioning completed the process.

From these experiments, it was found that fixation at pH 7.0-7.2 followed by chromation at pH 3.1 in a mixture of ZnCrO₄, 60 gm and formic acid, 35 ml, diluted to 1000 ml with distilled water, was optimum for best impregnation of nerve cells and their processes. Human brain and that of newborn mammals, although not perfused, responded well to the controlled-pH procedure. The advantages of the technic are the staining of nerve cells in regions refractory to previous methods and the relatively short time needed for its completion.     

Serial Sections of Cooked Rice Embedded in Carbowax

Serial sections of cooked rice kernels may be obtained by following either of two dehydration schedules and embedding in Carbowax. In the first schedule the cooked, rinsed and drained kernels are immersed several days in a nonaqueous fixative composed of: isopropyl alcohol, 10 ml; propionic acid, 30 ml; acetone, 10 ml; methylal, 40 ml; dioxane, 30 ml; and propylene glycol, 30 ml (Newcomer's, modified), followed by 7 or 8 days in equal parts of propylene glycol, dioxane and glycerol (changed once), and 4 days on a warming table in the same mixture with 5% Carbowax added. The dehydrated kernels are then infiltrated 4-24 hr with a Carbowax embedding mixture. In the second schedule they are immersed several days in an aqueous solution consisting of: propylene glycol, 12.5 ml; polyethylene glycol 400, 12.5 ml; either with 75 ml of water containing 0.1% thymol, or with a mixture of water, 65 ml; formalin, 10 ml; CaCl₂, 1 gm; and CdCl₂, 1 gm; followed by 3 or 4 days in 50% propylene glycol, and 3 or 4 days on a warming table in 80% propylene glycol with 5% Carbowax added. Infiltration is as above. The composition of the embedding mixture is varied according to the temperature and humidity likely to prevail during sectioning. The texture of the wax may be improved by adding small amounts of gum arabic, spermaceti, and glycerol. Serial sections 3-10 μ thick are placed on clean dry slides, and adhesive dropped at the edges of the ribbon of Carbowax until it is dissolved. The adhesive consists of water-glass (concentrated solution), 1 ml; concentrated ammonia, 1 ml; Carbowax, 5 gm; and water, 98 ml. After the slides are dry they are stored, or immersed 10 min in chloroform, collodionized, and passed to staining solutions. Atmospheric conditions affect not only the Carbowax, but also the response to reagents of cooked rice and of sections.     

Staining and Mounting Helminths

The following procedure is recommended: Fix ces-todes and trematodes (while held flat between glass slides) 0.5-2.0 hr. in the following mixture: formalin, 15; acetic acid (gl.), 5; glycerol, 10; 95% ethyl alcohol, 24; distilled H₂O, 46; all proportions by volume. After freeing them from the slides, wash thoroughly in running water and stain immediately thereafter. Stock staining solution: ferric ammonium alum (violet cryst.), 2 g.; distilled H₂O (cold) 100 ml.; after solution, add 2 ml. concentrated H₂SO₄, bring to a boil; add 1 g. coelestin blue B (Nat. Aniline), boil 3-5 min.; cool and add 10 ml. absolute methyl alcohol and 10 ml. glycerol. Dilute 1 vol. with 3 vol. distilled H20 for use. Stain 5-30 min., depending on size of specimens. Wash with 2 changes 0.5 hr. each of distilled H₂O, then 50% isopropyl alcohol 12-16 hr., 50% isopropyl alcohol 2 hr., followed by graded isopropyl alcohol for dehydration. Ether: ethyl alcohol (equal parts), 1 hr., is followed by embedding in celloidin in a sheet just thick enough to cover the specimens. Trim embedded specimens and dehydrate with isopropyl alcohol, 80%, 90% and absolute. Clear in beechwood creosote. Mount in balsam with cover glasses that overlap the edges of the celloidin 1-2 mm. While drying at 37°C, refill edges of mount with fresh balsam as needed. When dry, remove excess balsam and ring the edges with ordinary gloss enamel paint.