health:disease_manual:recipes_and_protocols

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health:disease_manual:recipes_and_protocols [2016/04/06 14:01] (current)
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 +====== Recipes and Protocols ======
 +{{indexmenu_n>​12}}
 +==== Davidson'​s Solution ====
 +
 +  * 95% ethanol 300 ml
 +  * formalin 200 ml
 +  * glacial acetic acid 100 ml
 +  * distilled water 300 ml
 +
 +==== Dietrich’s Fixative ====
 +
 +  * 95% ethanol30 mL
 +  * formalin10 mL
 +  * glacial acetic acid 2 mL
 +  * distilled water58 mL
 +  * 100 mL total
 +
 +
 +==== Millonig'​s Buffer for Electron Microscopy ====
 +
 +Solution A 2.62 % NaH<​sub>​2</​sub>​PO<​sub>​4</​sub>​
 +
 +Solution B 2.52 % NaOH
 +
 +===Working solution===
 +
 +Mix 83 ml Solution A with 17 ml Solution B.
 +
 +Adjust pH to 7.4 with 10 N NaOH or concentrated HCl.
 +
 +For transmission electron microscopy of fish tissues, we generally prepare 4% glutaraldehyde in Millonig'​s buffer. Fix small pieces of tissue at room temperature for 2 h, then hold overnight at 4 <​sup>​0</​sup>​C. Transfer to Millonig'​s buffer without glutaraldehyde.
 +
 +==== Cytophaga Medium (for Gliding Bacteria) ====
 +  * tryptone 0.5 g
 +  * yeast extract 0.5 g
 +  * sodium acetate 0.2 g
 +  * beef extract 0.2 g
 +  * agar 11.0 g
 +
 +===add above to===
 +  * distilled water 1 liter
 +  * autoclave and pour into sterile petri dishes
 +
 +==== Leishman’s Giemsa Stain ====
 +
 +This stain is useful for examining protozoa, bacteria and cell morphology in tissue imprints and blood smears. Pre-made commercial products, such as Diff-Quik (Dade Behring AG, Newark, DE) http:​%%//​%%www.dadebehring.com/​ are nearly equivalent.
 +
 +===Leishman'​s===
 +Add 1 g Leishman'​s stain to 500 ml absolute methanol and filter.
 +
 +===Giemsa Stock Solution===
 +Add 1 g powder to 66 ml to glycerol and heat at 60 <​sup>​0</​sup>​C for one hour. Then add 66 ml of absolute methanol and filter. Store at 40C.
 +
 +===Phosphate Buffer Solutions===
 +  * Solution A - 31.20 g NaH<​sub>​2</​sub>​PO<​sub>​4</​sub>​ , 2 H<​sub>​2</​sub>​0 in 1 L distilled water
 +  * Solution B - 53.65 g Na<​sub>​2</​sub>​HPO<​sub>​4</​sub>​ , 7 H<​sub>​2</​sub>​0 in 1 L distilled water
 +
 +===Giemsa Working Solution===
 +To prepare phosphate buffer, mix 73.5 ml solution A with 26.5 ml solution B. Then add 100 ml distilled water. Add 3.5 ml stock solution to 50 ml phosphate buffer (pH 6.4). Make fresh for each use.
 +
 +==Staining Procedure==
 +
 +  * Prepare smear or imprint and allow to dry for about 1/2 hour.
 +  * Fix in methanol for 2-5 min.
 +  * Stain in Leishman'​s for 2-3 min.
 +  * Stain in Giemsa for 10-12 min.
 +  * Rinse in distilled water for about 1 min.
 +  * Air dry.
 +
 +===== Adult Zebrafish Histology =====
 +
 +==== Fixation for histology ====
 +
 +  * Fish should still be alive just prior to fixation.
 +  * Ice the fish to kill them. Cut off the tail behind the anus. Slit open the body cavity along the belly.
 +  * Use 15 mL fixative per 1-2 fish in a small vial.
 +  * To ensure uniform and complete fixation, fix for three days on rotor, or other agitating device.
 +  * Store fish in Dietrich’s fixative at room temperature
 +
 +==== Processing for Histology ====
 +
 +Adult zebrafish are often difficult to section without first softening their skin and scales. The day before processing, transfer the fixed fish to 5% trichloroacetic acid (TCA) in Dietrich’s fixative, and place on rotor overnight. TCA will soften the scales and skin, presumably by cleaving the keratin proteins. In addition, TCA will decalcify, softening the bones. Unfortunately,​ TCA is a fairly strong acid and will corrode the tissue processor. The fish must be thoroughly rinsed to remove any TCA before the fish can be processed.
 +
 +===PROTOCOL===
 +Transfer fish to 5% TCA in Dietrich’s fixative. Place on rotor overnight. The next day, replace TCA-containing Dietrich’s with 70% ethanol and place on rotor for 10 minutes. Repeat 2xs for a total rinse time of 30 minutes. Replace last rinse with fresh 70% ethanol. The fish are then bisected along their length before they are processed. Using a fresh razor blade, make the cut parallel to and on the left side of the spinal cord. The bisected fish are now ready to load into cassettes for processing.
 +
 +==== Processing Schedule for Large Adults (4-5 months or older): ====
 +
 +  * 70% ethanol 10 minutes
 +  * 70% ethanol 40 minutes
 +  * 80% ethanol 1 hour, 10 minutes
 +  * 95% ethanol 2 X 1 hour, 10 minutes
 +  * 100% ethanol 2 X 1 hour, 10 minutes
 +  * xylene 1 hour, 30 minutes
 +  * Clear-Rite 3 (from Richard-Allen Scientific) 1 hour, 30 minutes
 +  * Paraplast/​Paraplast Plus* (50:50) 2 X 1 hour
 +  * Paraplast 1 hour
 +  * Paraplast 45 minutes
 +  * Embed in TissuePrep-2 Embedding Media (Fisher Scientific),​ placing cut sides of both halves of the fish down.
 +  * *Paraplast Plus contains DMSO. Care should be exercised when handling used Paraplast Plus as the DMSO can carry residual xylene across the skin.
 +
 +
 +==== Processing Schedule for Small Adults (1-3 months): ====
 +
 +  * 70% ethanol 10 minutes
 +  * 70% ethanol 50 minutes
 +  * 80% ethanol 50 minutes
 +  * 95% ethanol 2 X 50 minutes
 +  * 100% ethanol 2 X 50 minutes
 +  * xylene 1 hour, 10 minutes
 +  * Clear-Rite 3 (from Richard-Allen Scientific) 1 hour, 10 minutes
 +  * Paraplast/​Paraplast Plus* (50:50) 2 X 1 hour
 +  * Paraplast 1 hour
 +  * Paraplast 45 minutes
 +  * Embed in TissuePrep-2 Embedding Media (Fisher Scientific),​ placing cut sides of both halves of the fish down.
 +  * *Paraplast Plus contains DMSO. Care should be exercised when handling used Paraplast Plus as the DMSO can carry residual xylene across the skin.
 +
 +
 +==== Processing Schedule for Young Fish (1 week-1 month) ====
 +
 +  * Fish younger than 3 weeks can be pre-embedded in Histogel, available from Fisher Scientific, Richard Allan Scientific or Lab Storage Systems.
 +  * 70% ethanol 2 X 20 minutes
 +  * 80% ethanol 30 minutes
 +  * 95% ethanol 2 X 30 minutes
 +  * 100% ethanol 2 X 30 minutes
 +  * xylene 40 minutes
 +  * Clear-Rite 3 (from Richard-Allen Scientific) 40 minutes
 +  * Paraplast/​Paraplast Plus* (50:50) 2 X 40 minutes
 +  * Paraplast 40 minutes
 +  * Paraplast 15 minutes
 +
 +If you want serial sections, embed in Paraplast as this paraffin provides for better ribboning.
 +
 +==== Sectioning Fish ====
 +
 +Cut 7 µm sections with a high-profile disposable blade (AccuEdge blades -- made by Sakura-Finetek,​ sold through VWR -- are reportedly the best) . If the large fish are difficult to cut, soak the block face in ice-cold Mollifex. Usually one to two hours is sufficient but an overnight soak is fine for stubborn samples.
 +
 +Sections of gills, spinal cord and internal organs will be needed for proper pathological evaluation. Because the fish has been cut to one side of the spinal cord, you will be cutting toward the midline on one half of the fish, and away from the midline on the other. With any luck, you will need to collect only one ribbon containing gills (one bisected half) and spinal cord (the other bisected half), along with a nice sampling of internal organs. Samples of the skin or fins may also be requested, depending on the reported symptoms.
 +
 +> Mollifex: 54 mL 95% ethanol, 10 mL glycerol, 36 mL water
 +
 +Store fixative at room temperature.
 +
 +
 +==== H&E Protocol for Adult Zebrafish ====
 +
 +The following is a staining protocol perfected by Karen Larison at ZIRC that we routinely use for zebrafish histopathology. Any water stage is a good stopping point if you had to do something part way through the procedure. Keep the slides wet throughout the procedure.
 +
 +  * Clear-Rite 3 3X 3min
 +  * 100% ethanol (absolute) 3X 1 min
 +  * 80 % ethanol 30 sec
 +  * 50 % ethanol 30 sec
 +  * 30 % ethanol 30 sec
 +  * Rinse in slow running water 30 sec
 +  * Harris'​ Hematoxylin * 4.5 min
 +  * Rinse in slow running distilled water till stain rinsed out ~4 min
 +  * Decolorize in 0.1% Acid alcohol%%**%% 45 sec
 +  * Rinse in distilled water 15 sec
 +  * Lithium carbonate neutralizing station%%**%% * 8 dips
 +
 +At this point the sections will look blue.
 +
 +  * Rinse in slow running water minimum of 5 min
 +  * 95 % ethanol 30 sec
 +  * 95% ethanol 30 sec
 +  * eosin Y - phloxine B solution%%**%%%%**%% 30 sec
 +  * 100 % isopropanol%%**%%%%**%%* ​  6X 15 sec
 +  * xylene 3X 15 sec
 +  * Coverslip with permount.
 +
 +* Filter Hematoxylin before each use. Make fresh batch every 2-3 months.\\
 +%%**%% 200 ul concentrated HCl in 200 mL 70% ethanol\\
 +%%**%%* Water and lithium carbonate (approx 2 tablespoons,​ supersaturated)\\
 +%%**%%%%**%% Make fresh eosin Y- phloxine B solutions from stock every 1-2 weeks.\\
 +%%**%%%%**%%* Use fresh isopropanol for the 6th wash. Discard the 1st (and pinkest) isopropyl. Rinse in isopropyl waste container after each staining session. Store other used rinses in bottles 1-5 (pinkest to clearest) for future use.
 +
 +==== Harris'​ Hematoxylin (Theory & Practice of Histological Techniques, Bancroft & Stevens, 4th edition, 1996, pp 101-102) ====
 +
 +  * Hematoxylin 2.5 g
 +  * Absolute alcohol 25 ml
 +  * Potassium alum 50 g
 +  * Distilled Water 500 mL
 +  * Sodium iodate 0.5 g
 +  * glacial acetic acid 20.0 mL
 +
 +The hematoxylin is dissolved in the absolute alcohol, and then added to the alum, which has previously been dissolved in the warm distilled water in a 2-liter flask. The mixture is rapidly brought to a boil and sodium iodate is then slowly and carefully added. The stain is rapidly cooled by plunging the flask into cold water or into a sink containing chipped ice. When the solution is cold, the acetic acid is added, and the stain is ready for immediate use.
 +
 +==== Eosin Y - Phloxine B solution (from Gayle Callis) ====
 +
 +  * 1% eosin Y (aq) 25.0 mL
 +  * 1% phloxine B (aq) 2.5 mL
 +  * 95% ethanol 195.0 mL
 +  * glacial acetic acid 1.0 mL
 +
 +==== Acid Fast Stain for Mycobacteria ====
 +|1. |Deparaffinize and rehydrate to water|
 +|2. |Clear-Rite 3               3 times for 3 min each|
 +|3. |100% ethanol 3 times for 1 min each|
 +|4. |80% ethanol 30 sec|
 +|5. |50% ethanol 30 sec|
 +|6. |30% ethanol 30 sec|
 +|7. |Rinse is slow running water 30 sec|
 +| | | 
 +|8. |Carbol-fuschin 30 min|
 +|9. |Rinse in distilled water|
 +|10. |1% glacial acetic acid in 70% ethanol about 1.5 min, depending on tissue*|
 +|11. |Rinse in running tap water 10 min|
 +|12. |Methylene blue short dip|
 +| | | 
 +|13. |Rinse in running tap water 5 min|
 +|14. |95% ethanol 6 dips|
 +|15. |100% ethanol 2 min|
 +|16. |100% ethanol 5 min|
 +|17. |xylene 3 min (repeat 3 times)|
 +
 +===Stock Solutions===
 +|Carbol-fuschin||
 +| | |
 +|Basic fuschin|1 g|
 +|Melted phenol|5 g|
 +|100% ethanol|10 ml|
 +|Distilled water|100 ml|
 +|Filter before use, can be re-used|
 +| | |
 +|Methylene Blue||
 +|Methylene blue| 0.14 g|
 +|95% ethanol|10.0 ml|
 +|Tap water|90 ml|
 +
 +Dissolve stain in ethanol, then add water. Discard after use.
 +
 +
 +  * Step 10. This step is subjective. The goal is to decolorize tissues while bacteria retain the stain.
  
health/disease_manual/recipes_and_protocols.txt · Last modified: 2016/04/06 14:01 (external edit)