Histological Technique PDF
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This document provides a detailed overview of histological techniques, covering specimen handling, processing, and various fixation methods. It also explains the criteria for choosing the right fixatives and ways to deal with calcified tissue.
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Histological Technique Histopathological Technique is the branch of Biology concerned with the demonstration of tissue structure in various diseases. The specimens submitted to the Histopathology Lab come mostly from the operation theatre, and morgue in the form of small tis...
Histological Technique Histopathological Technique is the branch of Biology concerned with the demonstration of tissue structure in various diseases. The specimens submitted to the Histopathology Lab come mostly from the operation theatre, and morgue in the form of small tissue, biopsy, whole organ, autopsy etc. The preparation of tissue for Microscopy involves the following steps; Receiving of Specimen Grossing Decalcification (If needed) Fixation Dehydration Clearing Impregnation Blocking Section Cutting Staining Mounting The basic purpose of the Specimen receiving room is to receive samples safely and securely. Specimens for Laboratory Examination should be received in separated zone away from the working Laboratory. Steps of Receiving Biopsy Specimens at Laboratory ⚫ Receiving When a Biopsy or Autopsy material is sent to a Laboratory, the Technologist must check the following; 1) Whether it is in a Fixative or not. 2) Presence of the tissue is there or not. 3) Clinical short notes of the patient. 4) Whether it is referred by a Medical practitioner or Surgeon. 5) Where from the tissue is taken. 6) Physical Examination of big tissue/organ (Length, breadth, weight, colour etc.) ⚫ Registration Every Laboratory has a Clinical report book. After receiving the specimen the Technologist must note in the book which contains Name, Age, Sex, Ward (IPD), diagnosis, tissue and description. It is useful for loss or confusion of labels and also for correct reporting. Details of Clinical biopsies are entered in the appropriate book, including a record of the number of pieces taken and each specimen is numbered. ⚫ Labelling of Specimen Correct labelling and identification of Specimens are the first essentials of any technique. If any mistake is made, it may lead to an incorrect diagnosis and also cause the death of the patient. Labelling should be done with a Graphite pencil. Different Criteria to Reject a Specimen The patient’s details on the requisition form and specimen label are different. Details of site/nature of Specimen not mentioned. The specimen is not received in specific containers. The specimen is not in proper Fixative. Patient history not found. In case of slide/blocks – Broken slides, improperly processed blocks or insufficient contents in Paraffin blocks. Different types of specimens may be received in the Histopathology Laboratory: Surgical Biopsy Needle Biopsy Endoscopy Biopsy Incision Biopsy Excision Biopsy Punch Biopsy Cone Biopsy Grossing - Gross Examination of Tissue The term Grossing means inspecting the specimen or investigating the Specimen describing, measuring the tissue and sectioning the tissue to a suitable size for further processing to diagnose. The ideal size for a tissue after grossing should be 20mm x 15mm x 5mm. Steps of Grossing Check fixation status Prepare thin slices Avoid specimen trauma and cross-contamination Choose an appropriate tissue cassette for specimen processing. Labelling of cassette. Basic requirements for Grossing Tissue Section / Organ Scissors (Various sizes) Forceps Scale / Metal ruler Scalpel Scalpel handles Surgical blades Metal probe Sharp Knife Pins Tray Weighing scale Cassettes Filter paper Disinfectants etc. Decalcification It is the process of complete removal of Calcium ions from tissue like bone, teeth and other Calcified tissue. Aim of the Decalcification: The presence of Ca++ salts in tissue prevents the preparation of good sections by routine methods. The incomplete removal of these salts results in torn and ragged sections and damage in the cutting edge of the microtome knife. Done to ensure that the specimen is enough to allow grossing and cutting with of the Microtome. Criteria of good decalcifying agents: ❖ Complete removal of Calcium ❖ Absence of damage to tissue cells and fibers. ❖ Non-impairment of subsequent staining technique. ❖ Reasonable speed of decalcification. Procedure: The techniques of Decalcification follow; 1. Selection of Tissues 2. Fixation 3. Decalcification 4. Neutralization of acid 5. Washing 1. Selection of Tissues - Bone, Calcified tissue 2. Fixation - 10% Formalin (Preferred) - Zenker’s formal (best fixed) 3. Decalcification A. Diluted or Weak Mineral Acid - Nitric acid: most common, so fast, produces minimal distortion. - HCl, Formic acid, Trichloroacetic acid, Picric acid, Acetic acid etc. B. Chelating Reagents - Organic compounds which have power to bind certain Metals. EDTA has the power to capture Metal ions. C. Ion - Exchange resins - Decalcifying fluids are used to remove Ca ions from tissue. D. Electrolytic method by Electrophoresis - Based on the principle of attracting Ca++ ion to a negative electrode into a decalcifying Solution. 4. Methods of chemical neutralization − It can be done by treatment with a weak alkali by immersing decalcified bone into either saturated lithium carbonate solution or 5-10% aqueous sodium bicarbonate solution for several hours. − Another method is by washing of decalcified tissues in two changes of 70% alcohol for 12-18 hours, which improves staining in most cases. Following this step, dehydration is continued in the usual way. 5. Washing Thorough washing of tissue is essential before processing to remove the acid or alkali which would otherwise interfere with Staining. Determination of End-point of Decalcification: Tissues to be decalcified should not be exposed to decalcifying fluids for longer than needed. Tissue kept for prolonged decalcification adversely affects the tissue. Methods of Determining End-point Accurate determination of End-point of decalcification is necessary to avoid harmful effects of decalcifying fluids. There are various methods used to test the End-point of decalcification. ✓ Radiography of the tissue ✓ Chemical test for Calcium ✓ Physical tests ✓ Bubble test (CO2 method) Radiography of the Tissue: Taking an X-ray picture of the tissue to check for any evidence of Calcium ions in bone or tissue is the most satisfactory, efficient and sensitive method for detecting the decalcification endpoint. Chemical Test for Calcium: Detects the presence of Calcium in the decalcifying solution released from Bone. Calcium oxalate Test - detects Calcium in acid solutions by precipitation of insoluble Calcium hydroxide or Calcium oxalate. Physical tests: Experience hands can tell by feeling the tissue. Physical tests are inaccurate, unreliable and damaging to tissues. Probing, needling (inserting a needle to feel for calcium deposits), slicing, bending, or squeezing tissue should not be used to detect the decalcification end point because they can produce damage to tissue and artefacts, e.g. needle tracks, disrupt soft tumour from bone, or cause false micro- fractures. 'Bubble' test (carbon dioxide method): Acids react with calcium carbonate in bone and form carbon dioxide which produces a layer of bubbles on the bone surface. These bubbles disappear with agitation or shaking but reform. They become smaller as less calcium carbonate is reduced. This as an endpoint test is subjective, unreliable and dependent on worker interpretation. However, it can be used as a guide to check the progress of decalcification, i.e. tiny bubbles indicate less calcium present. Tissue Fixation Fixation In Histopathology & Cytopathology, tissue fixation is a process by which a tissue specimen is placed in a fixative that preserves the cell most closely to the original form present in the body. The foundation of Histopathological preparation is complete fixation. Fault in fixation cannot be remedied at any later stage. It is essential that tissues are to be fixed as soon as possible after death or removal from the body. For that reason Screw capped jars containing appropriate fixatives should be permanently kept at OT, Post mortem room. The amount of Fixative should be at least 15-20 times the volume of Tissue. Tissue should be thin to be adequately fixed. The length, breadth thickness should be 20 mm x 15 mm x 5 mm. Several hours are needed for Fixation. Time required 12-24 hours. Fixation should be done in Room temp. In case of any emergency, can execute at 60 degrees C for 2-3 hours. Purpose of Fixation To prevent autolysis To prevent Putrefaction To preserve in the museum for future guidance Hardening of Tissue. Solidification of colloidal material. Devitalize or inactivate infectious agents. Increase refractive index. Better Staining etc. Different kinds of Fixation: Chemical methods of Fixation: Aldehydes (cross- linking)- Formaldehyde, glutaraldehyde, acrolein, glyoxal Protein denaturing (coagulants/dehydrating) agents- Acetic acid, methyl alcohol, ethyl alcohol Oxidizing agents- Osmium tetroxide, potassium permanganate, potassium dichromate Other cross-linking agents- Carbodiimides Physical methods of Fixation: Heat, microwave, dry Different techniques of Fixation Immersion Fixation Vapour Fixation Microwave Fixation Spray Fixation Perfusion Freeze Drying Fixation etc. 1. Immersion Fixation The most commonly used technique of Fixation. In this tissue/smear is simply immersed in a Fixative. 2. Perfusion Fixation Basically, it is used in Research work. In this method, tissue is perfused with a fixative. Exmp- Lungs or Brain after removal. 3. Vapor Fixation It is used for imprint or Blood smears. Different types of chemicals used as Vapour are Aldehydes, Osmium tetroxide, Ethanol etc. 4. Spray / Coating Fixatives Basically used in Cytology samples especially when the Slides are to be transported to Laboratory in a distinct place. 5. Microwave Fixation Basically it can reduce time required for Fixation of some gross Specimens and histological sections from more than 12 hours to less than 20 minutes. But it produces large amount of dangerous vapors. Microwave Fixation preserves tissue Antigen better than routine methods of Fixation. 6. Freeze drying Fixation Freeze drying is an alternative to Fixation that is useful technique for studying soluble materials. In this method, tissue is rapidly frozen at -160 degrees C that forms a ice cube of Tissue. Fixative Definitions A fixative may be defined as a substance that preserves the morphological and chemical characteristics of cells and tissues and prevents autolytic and putrefactive changes. Qualities of an ideal fixative 1) Prevent autolysis and putrefaction 2) Preserve cells, tissue and its constituents in life like manner 3) Make the cellular components insoluble to reagents used in tissue processing 4) Rapid and even penetration and fixation of tissues 5) Mildly harden tissues 6) Devitalize or inactivate infectious agents in the tissue (if any) 7) Preserves tissue volume (should be isotonic), maintains shape and prevents structure deformation 8) Support high quality and consistent staining 9) Safe to handle, nontoxic, non-inflammable and nonallergic 10) Economical (cheap), stable, readily disposable or recyclable 11) Should be useful for a wide variety of tissues 12) Prevents fixation artifacts Types of Fixative: By Composition Simple fixative: Contains single chemical, e.g. formaldehyde (10% formalin), glutaraldehyde, ethyl alcohol, etc. Compound fixative: A mixture which contains more than one chemical fixative. ▪ Formalin based fixatives: 10% neutral buffered formalin, 10% neutral buffered formal saline, formol calcium ▪ Mercurial fixatives: Zenker's solution, Zenker -formol (Helly's solution), B5 fixatives ▪ Dichromate fixatives: Regaud's solution, Möller's solution and Orth's solution ▪ Picric acid fixatives: Bouin's fluid, Genre's fluid Alcohol-containing fixatives: Carnoy's fluid, acetic acid formalin (AAF) Fixatives used in Histopathology: 1. Formalin 10% Formal Saline (Formalin – 10 ml, Saline - 90 ml) Duration -12-24 hrs Advantage - Cheap - Preserves most tissues well Disadvantage -Allergenic 2. Zenker’s Fluid Solution of Mercuric Chloride …………………. 5g Potassium dichromate …….…... 2.5g Distilled water …………………….... 100 ml 5 ml Glacial acetic acid is to be added before use. Duration -10-20 hrs. Advantage -Preserves nuclear and connective tissues very well. -Facilitates monochromatic staining. Disadvantage -Can penetrate up to 5 mm. -Expensive -Has to be preserved in Nickel alloy bottles. -Required to be washed for ½ hour in running water -Several changes in 70% alcohol after fixation. 3. Bouin’s Fluid Combination of Picric Acid ………… 75 ml Formalin ……….…. 25 ml Glacial acetic acid….... 5 ml Duration -10-20 hrs Advantages -Rapid penetration -Preserves Glycogen -Improves greatly staining of Nuclei and connective tissue. Disadvantages -Lyses red cell -Makes tissue hardening if kept >24 hrs -Fixed tissues should be transferred to 70% alcohol 4. Helly’s Fluid - Stock Solution of Zenker’s Fluid - Add 5-10% Formalin just before use. Duration -10-20 hrs Advantage -Preserves Nucleus and connective tissues well. -Facilitates metachromatic staining. Disadvantage -Penetrates up to 5 mm -Expensive -A nickel alloy jar is needed to preserve. Other Primary Fixatives are - Baker’s Solution (Formal calcium) Orth’s fluid Carnoy’s fluid.