Visualization of Legionella pneumophila in paraffin sections using hexamine silver

A modification of Gomori's hexamine silver technique is given as a simple, reliable method for the nonspecific demonstration of Legionella pneumophila in paraffin sections. When tested against serogroups I to VI it was found that pretreatment with potassium dichromate rendered L. pneumophila demonstrable by the Gomori-Burtner hexamine silver solution when buffered to pH 7.8. Tissue was fixed in 10% buffered formalin and sections were cut at 3-5 microns. After treatment with 10% potassium dichromate for 1 hour at room temperature, sections are placed in the silver solution at 56 C until they develop a pale golden yellow color, at which point they are checked periodically under the microscope for optimal staining (approximately 3-4 hours). Sections are then toned, fixed and counterstained in 1% neutral red. The L. pneumophila coccobacilli stain black against a clear background, while nuclei stain red/black.     

A Golgi-Electron Microscope Method for Insect Nervous Tissue

Golgi's light microscopic method of selective silver impregnation for nervous tissue combined with electron microscopy appears to offer a promising method for working out the detailed anatomy of individual neurons and their connections. Insect nervous tissue is fixed in a mixture of 2% paraformaldehyde and 21/2% glutaraldehyde in Millonig's buffer (pH 7.2) before postfixation for 12 hours in a solution brought to pH 7.2 with KOH containing 2% potassium dichromate, 1% osmium tetroxide and 2% D-glucose. The tissue is then transferred to a solution of 4% potassium dichromate for 1 day; and for 1-2 days to a 0.75% silver nitrate solution. After dehydration and embedding in Araldite, 50μm sections am made. Areas of interest are cut from these sections and re-embedded in silicone molds. Ultrathin sections are then cut and stained with uranyl acetate and lead citrate. The Golgi method described here gives good results at the level of both light and electron microscopy.     

A Golgi-electron microscope method for insect nervous tissue.

Golgi's light microscope method of selective silver impregnation for nervous tissue combined with electron microscopy appears to offer a promising method for working out the detailed anatomy of individual neurons and their connections. Insect nervous tissue is fixed in a mixture of 2% paraformaldehyde and 2 1/2% glutaraldehyde in Millonig's buffer (pH 7.2) before postfixation for 12 hours in a solution brought to pH 7.2 with KOH containing 2% potassium dichromate, 1% osmium tetroxide and 2% D-glucose. The tissue is then transferred to a solution of 4% potassium dichromate for 1 day; and for 1-2 days to a 0.75% silver nitrate solution. After dehydration and embedding in Araldite, 50 mum sections are made. Areas of interest are cut from these sections and re-embedded in silicone molds. Ultrathin sections are then cut and stained with uranyl acetate and lead citrate. The Golgi method described here gives good results at the level of both light and electron microscopy.     

Synaptology of the claustrum in the rat

A great deal of information is available on the morphology of the claustrum in various animal species, as well as on its neuronal distribution and relationships with the cerebral cortex and other nuclei. However, no research has been performed on synaptic organization. Here we report an ultrastructural study performed on 7 male albino rats of the Wistar strain weighing 270-310 g. Five rats were sacrificed by prolonging general anesthesia with diethyl ether until death. Three of these rats were secured to the stereotaxic atlas coordinates of Paxinos and Watson (1982); the claustrum area was marked by injecting 1 microliter of a 10% Evans Blue solution into the nucleus. The brain was then removed from the skull, cut into 2-3 mm thick coronal sections, and tissue samples taken from the area immediately adjacent to the marked area were immersed in 2% OsO4 buffered with 2% potassium dichromate containing 0.2% CaCl2 at pH 7.7 (Gobel, 1968). After dehydration they were embedded in Durcupan and the ultrafine sections were stained with uranyl acetate and lead citrate and observed with either a Zeiss 9S2 or a Hitachi H 800 electron microscope. The samples from two other rats, taken with the stereotaxic techniques described, were fixed for 12 h in 0.6 potassium permanganate solution buffered with veronal-acetate at pH 7.4 (Luft, 1956). After processing for electron microscopy, a portion of the sections were used without any contrast medium and the remainder were stained with uranyl acetate and lead citrate.(ABSTRACT TRUNCATED AT 250 WORDS)     

Polyoxyethylene Sorbitan Monopalmitate (Tween 40) as a Vehicle for oil Red O Fat Stain

An oil red O fat stain is prepared by dissolving 250 mg of the dye in 100 ml of a 1% Tween 40 solution in 30% alcohol, and incubating the mixture at 60°C for 24 hr. The solution is then filtered at room temperature under vacuum through medium porosity frittedglass. Frozen sections cut from material fixed in CaCl₂-CdCl₂-formalin (1%:1%:10%) are placed in the stain for not less than 4 hr. After washing in the alcoholic-Tween solvent, they are mounted on glass slides from distilled water with Farrants' medium. The resulting preparations appear to be permanent, for in a 2-yr test they have remained free from stain crystalization and the fat particles are still discrete and dark red.     

Selective Silver Impregnation of Degenerating Axons In The Central Nervous System

Rat and rabbit brains containing surgical lesions of 5-10 days' duration were fixed in 10% formalin (neutralized with calcium carbonate) for 1 week to 6 months. Frozen sections (15-20 n) were rinsed and then soaked 7 minutes in a 1.7% solution of strong ammonia in distilled water. Subsequent treatment was as follows: rinse; 0.05% aqueous potassium permanganate 5-15 minutes; 0.5% aqueous potassium metabisulfite, 2 changes of 2.5 minutes each; wash thoroughly in 3 changes distilled water; 1.5% aqueous silver nitrate, 0.5-1.0 hr.; 1% citric acid, 5-10 sec.; 2 changes distilled water; 1% sodium thiosulfate, 30 see.; 3 changes distilled water. Each section is then processed separately. Ammoniacal silver solution (450 mg. silver nitrate in 10 ml. distilled water; add 5 ml. ethanol; let cool to room temperature; add 1 ml. strong ammonia water and 0.9 ml. of 2.5% aqueous sodium hydroxide), 0.5-1.0 min. with gentle agitation. Reduction of about 1 minute is accomplished in: distilled water, 45 ml.; ethanol, 5 ml.; 10% formalin, 1.5 ml.; 1% citric acid, 1.5 ml. Rinsing; 1% sodium thiosulfate, 10 sec.; thorough washing followed by dehydration through graded alcohol and 3 changes of xylene or toluene complete the staining process. Normal nerve fibers are slightly stained to unstained, degenerating fibers, black. The treatment in potassium permanganate is critical since too little favors overstaining of normal fibers and too much abolishes staining of degenerating fibers.     

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.     

A Urea Silver Nitrate Method for Nerve Fibers and Nerve Endings

A silver nitrate stain for nerve fibers and endings applicable to paraffin sections on the slide utilizes the properties of urea to accelerate the procedure and improve the specificity of the stain. After removal of the paraffin the sections are run through absolute, 95% and 80% alcohol and placed for 60-90 minutes at 50-60°C. in: 1% aqueous silver nitrate, 100 ml.; urea, 20-30 g.; 1g. mercuric cyanide and 1 g. picric acid in 100 ml. of distilled water, 1-3 drops. After the silver bath they are rinsed quickly in 2 changes of distilled water and reduced for 3-5 minutes at 25-30°C. in: water, 100 ml.; sodium sulfite, anhydrous, 10g.; hydroquinone, 1-2g.; urea, 20-30g. They are then washed thoroughly in 4-5 changes of distilled water, passed through graded alcohols into 80% alcohol and examined under the microscope. If nerve fibers are not distinct, the sections are returned to the same urea-silver-nitrate bath for 10-15 minutes, rinsed, reduced, washed and dehydrated as before. This process may be repeated until staining is adequate; then they are dehydrated, cleared, and mounted.

Nerve fibers show a color range from brown to black; nerve cells from yellow to brown; and the background, depending on the type of tissue and its fixation, from yellow to light brown.     

Alcoholic Thionin Counterstaining Following Golgi Dichromate-Silver Impregnation

Brains of cats that had been fixed 2 months or longer in 10% formalin were cut into 3-6 mm. slices and impregnated by Golgi's dichromate-silver procedure (6% dichromate solution, 4-6 days; 1.5% silver nitrate solution 2 days). Sections 100 µ thick were cut after embedding in low melting point paraffin. Three changes of xylene and three of absolute alcohol were followed by staining 3-5 minutes in a saturated solution of thionin in absolute alcohol. The sections were dipped quickly in absolute alcohol and cleared in xylene, then differentiation was effected by an equal-parts mixture of absolute alcohol and xylene. A final clearing in three changes of xylene and mounting in Permount completed the process. Counter-staining was most successful when applied to freshly cut sections.     

An improved silver stain for developing nervous tissue.

A reduced silver technique using physical development to stain embryonic nervous tissue is described. Brains are fixed in Bodian's fixative. Paraffin sections are pretreated with 1% chromic acid or 5% formol. They are impregnated with 0.01% silver nitrate dissolved in 0.1 M boric acid/sodium tetraborate buffer of pH 8 or with silver proteinate. Finally they are developed in a special physical developer which contains 0.1% silver nitrate, 0.01-0.1% formol as reducing agent, 2.5% sodium carbonate to buffer the solution at pH 10.3, 0.1% ammonium nitrate to prevent precipitation of silver hydroxide, and 5% tungstosilicic acid as a protective colloid. The development takes several minutes in this solution, thus the intensity of staining can be controlled easily. The method yields uniform, complete and reproducible staining of axons at all developmental stages of the nervous tissue and is easy to handle.     

An Improved Silver Stain for Developing Nervous Tissue

A reduced silver technique using physical development to stain embryonic nervous tissue is described. Brains are fixed in Bodian's fixative. Paraffin sections are pretreated with 1% chromic acid or 5% formol. They are impregnated with 0.01% silver nitrate dissolved in 0.1 M boric acid/sodium tetraborate buffer of pH 8 or with silver proteinate. Finally they are developed in a special physical developer which contains 0.1% silver nitrate, 0.01-0.l% formol as developed agent, 25% sodium carbonate to buffer the solution at pH 10.3, 0.1% ammonium nitrate to prevent precipitation of silver hydroxide, and 5% tungstosilicic acid as a protective colloid. The development takes several minutes in this solution, thus the intensity of staining can be controlled easily. The method yields uniform, complete and reproducible staining of axons at all developmental stages of the nervous tissue and is easy to handle.     

Staining of Fungi With Saccharated Iron Oxide

A 0.2% aqueous solution of saccharated iron oxide with a pH of 10.8 is shown to be suitable for supravital staining of fungi. Colonies or fresh tissue materials presumed to contain fungi are immersed in the solution for 1-24 hr, fixed in a 10% neutral solution of buffered formalin about 1 hr, washed, and treated with 10% potassium ferrocyanide in 0.5 N, HC1. Cell membranes of hyphae, perithekia, and walls of sporangia appear dark blue; cytoplasm of the hyphae, sporangiospores and spores stain greenish blue or yellowish green.     

Fink-Heimer Silver Impregnation of Degenerating Axons and Terminals in Mounted Cryostat Sections of Fresh and Fixed Brains

The silver impregnation method of Fink and Heimer (Brain Res., 4: 369-74, 1967) has been used on cryostat sections of both fresh frozen and formalin-fixed brain tissue mounted on slide. The fixed brains were soaked in 25% sucrose for 2-3 days before freezing. The slides used for mounting were dipped in a 0.5% aqueous gelatin solution containing 50 mg of chrome-alum per 100 ml, drained and allowed to dry in a vertical position. Sections of fresh tissue were fixed for 16 hr in a 10% formalin solution buffered with phosphates to pH 7.0. Staining was carried out according to the Fink-Heimer procedure II and gave results comparable to those obtained on unmounted frozen sections of formalin-fixed material     

Fink-Heimer Silver Impregnation of Degenerating Axons and Terminals in Mounted Cryostat Sections of Fresh and Fixed Brains

The silver impregnation method of Fink and Heimer (Brain Res., 4: 369-74, 1967) has been used on cryostat sections of both fresh frozen and formalin-fixed brain tissue mounted on slide. The fixed brains were soaked in 25% sucrose for 2-3 days before freezing. The slides used for mounting were dipped in a 0.5% aqueous gelatin solution containing 50 mg of chrome-alum per 100 ml, drained and allowed to dry in a vertical position. Sections of fresh tissue were fixed for 16 hr in a 10% formalin solution buffered with phosphates to pH 7.0. Staining was carried out according to the Fink-Heimer procedure II and gave results comparable to those obtained on unmounted frozen sections of formalin-fixed material     

Golgi Impregnation After Formalin Fixation

Formalin fixed (10% aqueous) brain from cat, rabbit and man cut to blocks 3-4 mm. thick was placed in a mixture of potassium bichromate, 5 g.; chloral hydrate, 3 g. and water 90 ml. for 24 hours. The specimens were rinsed through 3 changes of water, and transferred through 3 changes of 1% silver nitrate, 1-3 minutes each, then placed for 24 hours in 1.5% silver nitrate. Frozen sections, 40-50 μ were dehydrated and mounted with a cover glass, using Permount. No deterioration of the stain was seen after 5 months. Some brains had been in formalin for 9 months; others only 7 days.     

Display of mitochondria in root tip cells

A method for displaying mitochondria and proplastids in root tip sections of Tradescantia paludosa and cereals was modified from Altmann and Volkonsky. Root tips were fixed in 3% glutaraldehyde in phosphate buffer, pH 7.1, or acetate buffer, pH 4.8, for 3 hr, rinsed and postchromed overnight in 3% potassium dichromate, all at room temperature (20 C), dehydrated through a tertiary butanol series and embedded in ester wax. Four-micrometer sections were stained in hot acid fuchsin in aniline water, rinsed, treated with 1% sodium phosphomolybdate for 30 sec, rinsed and stained progressively with azure B for 3-10 min before being made permanent. Mitochondria and proplastids were stained brilliant crimson against a light blue cytoplasm with deep blue chromosomes. Previously reported difficulties with Altmann staining techniques are attributed to the erratic action of the classical fixatives used.     

Sudan Black and Osmic Acid as Staining Agents for Testicular Interstitial Cells

Two standard cytological techniques have heen modified to stain specifically the interstitial cells of the testis. In Method 1, the tissue is fixed in Zenker-formol or Regaud's fluid for several hours or overnight and subsequently postchromed in 3% K₂Cr₂O₇ for 72 hr at 37°C. After paraffin embedding, sections are cut at 5μ, dewaxed, brought down to 70% alcohol and stained in an unfiltered saturated solution of Sudan black in 70% alcohol for 10-30 min. Sections are washed briefly in 70% alcohol to remove all excess dye, differentiated, if necessary, in 50% alcohol, downgraded to water and mounted in Farrants' medium or glycerol jelly. Interstitial cells: deep blue black; remainder of testicular tissue: light blue. Method 2 is essentially the Champy-Kull technique but specific staining for mitochondria is omitted and the sections are downgraded to water; then they are mounted in Farrants' medium or glycerol jelly without further treatment. In this way osmicated lipoids are preserved. Interstitial cells: conspicuous due to the variable number of black granules in their cytoplasm; the remainder of the tissue: yellow.     

Phospholipid Fixation by Dichromate-Sublimate

Phospholipids may be preserved for study in paraffin sections by fixing the tissue 1 to 3 days at room temperature in 2.5% potassium dichromate dissolved in 5% mercuric chloride. After this dichromate-sublimate fixative and paraffin embedding, the phospholipids are readily stained with Sudan black.     

Suggested Counterstains for Davenport Reduced Silver Preparations of Peripheral Nerves

—Peripheral nerves which have been fixed in a mixture of formaldehyde and acetic acid and stained according to the method of Davenport can be successfully counterstained for demonstration of myelin sheaths and stroma. After mounted sections have been silvered, reduced and toned, the coating of nitrocellulose is removed by passing thru two changes of acetone. Following brief washes in 100,95,85 and 75% alcohols they are stained in an acidified aqueous solution of azo carmine for 30 to 60 minutes. Excess azo carmine is extracted with anilin alcohol followed by acetic alcohol after which the sections are mordanted for 15 to 60 minutes in a 5% aqueous solution of phosphotungstic acid. Without washing they are transferred to a stain mixture of either anilin blue and orange G (acidified) or light green and orange G (acidified) where they remain from 1 to 5 hours. After destaining in 95% alcohol and dehydration in absolute alcohol the sections are mounted in dammar. Result: axons stain black; sheath and fibroblast nuclei, red; myelin sheaths, orange; and connective tissue, blue or green. When the counterstains are applied to ganglia, cytological details of individual cells are demonstrated.     

Triple Silver Impregnation for Selective Staining of Avian Nerves

Frozen sections of avian tissue fixed 7 days or longer in 10% formalin or formol-saline are cut at 20-50 μ, left in distilled water for 2 hr, and placed in 0.002% aqueous AgNO₃ for 3-4 days. Subsequent procedure is essentially that of Weddell and Glees. Sections are placed in 20% AgNO₃ for 30 min, then carried through 3 baths of 3% formalin in less than 10 min. Immediately thereafter they are washed 1-2 sec in a 0.1% solution of NH₄OH (cone) and placed in the ammoniacal silver solution (made with 20% AgNO₃) until the nerves become distinct, as seen under a microscope; usually, in about 15 min. After washing briefly, the sections are fixed in 5% Na₂S₂O₃ for 3-10 min, dehydrated, cleared, and mounted in the usual way.