Histopathologic Techniques
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![Page 1: Histopathologic Techniques](https://reader036.fdocuments.in/reader036/viewer/2022062307/552f8a53550346f6508b45fd/html5/thumbnails/1.jpg)
Histopathologic Techniques
Frederick R. Llanera, MD, FPSP, ASCPi, AMT, RMT
Pathologist, Philippine Heart Center
Faculty, University of Santo Tomas
Guest Lecturer, University of Minnesota
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Examination of Fresh Tissues
Teasing or Dissociation Squash Preparation (Crushing) Smear Preparation (Streaking, Spreading,
Pull – Apart, Touch or Impression Smear Frozen Section
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FS indications
- rapid diagnosis (guide for intra-operative patient management)
- to optimally process tissues for special studies for diagnosis, treatment, or research
- to confirm that lesional tissue is present for diagnosis on permanent sections (sample adequacy)
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FS limitations
Limited section sampling Ice crystal or freezing artifact Inferior quality compared to paraffin
sections Lack of special studies (time constraint)
Special stains, immunohistochemistry, culture Lack of consultation for difficult cases
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Consider these during RFS:
Relevant clinical information / history Type of tissue or location of biopsy To determine beforehand what information
the surgeon requires from the FS and how the information will be used.
Optimal turn-around time is </= 15 mins
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Consider these during RFS:
Coordination between lab and OR (personnel involved)
Check cryostat (-17C) No fixative used Protection of laboratory personnel Selecting part of the tissue for FS
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Examination of Fixed Tissues - Histopathologic Techniques / Steps: Numbering Fixation Dehydration Clearing Impregnation Embedding
Blocking Trimming Sectioning Staining Mounting Labelling
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Fixation
Kills, hardens, preserves tissues for the next histopath steps
“life like” appearance – prevention of degeneration, putrefaction, decomposition, distortion – protein stabilization (cross links formed between fixative and proteins)
Reduce risk of infection Promotes staining Inhibit bacterial decomposition
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Fixation
To preserve the tissue Stop all cellular activities
To prevent breakdown of cellular elements Inactivation of lysosomal hydrolytic enzymes
– post mortem decomposition (autolysis); or by chemically altering, stabilizing, and making tissue components insoluble
Prevention of putrefaction after death (bacterial / fungal colonization & overgrowth)
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Fixation
To coagulate or precipitate protoplasmic substances Additive fixation – chemical constituent of
fixative is taken in & becomes part of the tissue by cross – links or molecular complexes stable protein (formalin, mercury, osmium tetroxide)
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Fixation
To coagulate or precipitate protoplasmic substances Non – additive fixation – removes bound
water by attaching to H bonds of certain groups within the protein molecule new cross links are established (alcoholic fixatives)
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Microwave Technique
Physical agent like vacuum, oven (heat) and agitation to increase movement of molecules and accelerate fixation
Accelerates staining, decalcification, immunohistochemistry and electron microscopy
Oscillation frequency 2450 mHz
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Microwave – advantages:
Tissue is heated right through the block in a very short time (main advantage)
Non chemical technique (less interference)
Rapid Lesser time for immunohistochemistry and
in-situ hybridization
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Microwave – disadvantages:
Penetrates 10-15 mm only No significant cross linking of protein
molecules; subsequent chemical fixation may be needed
Viable spores/pathogens (alcohol based fixatives or microwaving alone)
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Special tissue processingSpecial tissue processing
Tissues that must be submitted unfixed Tissues for frozen section evaluation Gout: uric acid dissolves in formalin – may use 100%
ethanol instead Tissues submitted for infectious disease and cytogenetic
studies Lymph nodes for lymphoma work-up Muscle and nerve biopsy Kidney biopsies Tissue submitted for analysis of lipids
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Processing bone marrow Processing bone marrow biopsiesbiopsies
The fixative used is very important. Submit entire needle biopsy after
fixation in Bouin’s fluid overnight, which is mildly acidic and removes calcium.
Serially number eight slides and cut sections at 4 microns.
Stain slides 1 & 5 with H&E; slides 2 & 6 with reticulin stain, and slides 3 & 7 with iron. Store slides 4 and 8
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Fixative
Cheap Stable Safe to handle Kills quickly Minimum tissue
shrinkage Rapid & even
penetration
Hardens tissues for easier cutting
Isotonic
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Types of Fixative
According to composition- Simple – Aldehydes, metallic fixatives
- Compound According to action
- Microanatomical
- Cytological – Nuclear & Cytoplasmic
- Histochemical
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Simple Fixatives
Aldehydes Formaldehyde Glutaraldehyde
Metallic Fixatives Mercuric Chloride Chromate Fixatives Lead Fixatives
Picric Acid Acetic Acid Acetone Alcohol Osmium Tetroxide /
Osmic Acid Heat
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Microanatomical Fixatives
10 % Formol Saline 10 % Neutral
Buffered Formalin Heidenhain’s Susa Formol Sublimate
(Formol Corrosive)
Zenker’s Zenker – Formol
(Helly’s) Bouin’s Brasil’s
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Cytological Fixatives
Nuclear: Flemming’s Carnoy’s Bouin’s Newcomer’s Heidenhain’s
Cytoplasmic Flemming’s w/o acetic
acid Helly’s Formalin w/ post
chroming Regaud’s (Moller’s) Orth’s
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Histochemical Fixatives
Formol Saline 10% Absolute Ethyl Alcohol Acetone Newcomer’s Fluid
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Formaldehyde
Methanol oxidized Cheap, readily available, easy to prepare,
stable, compatible w/ stains, penetrates tissues well, preserves fat, mucin, glycogen, for tissue photography
Irritating fumes, prolonged fixation may bleach tissues
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Formaldehyde – precautions:
Paraformaldehyde formation Well ventilated room Not neutralized if concentrated – explosion Buffered or neutralized by adding
magnesium carbonate/CaCO3 – wide mouth bottle
Bleaching prevented by changing formalin
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10 % Formol Saline
Penetrates and fixes tissues well, minimum shrinkage & distortion, does not overharden tissues
Slow (>24 h)
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10% Neutral Buffered Formalin
Na dihydrogen PO4, Disodium H PO4 For preservation and storage of surgical,
post mortem and research specimens Best fixative for Fe pigments, elastic fibers Longer to prepare – time consuming, inert
towards lipids
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Formol corrosive/formol sublimate
Formol mercuric chloride Minimum shrinkage and hardening No need for wash out from fixative to ROH Slow Forms mercuric chloride deposits
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Glutaraldehyde
For LM, EM Adv vs. HCHO: more stable effect, less
tissue shrinkage, less irritating Disadv: more expensive, slow penetration
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Mercuric Chloride
Most common metallic fixative; 5-7 % For tissue photography, recommended for
renal tissues, fibrin, CT, muscles Disadv: hardens outer layers only, black
granular deposits formed (removed by adding iodine), corrosive to metals
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Mercuric Chloride
Zenker’s (HgCl2 + Glacial HAc) – liver, spleen, CT fibers, nuclei; poor penetration, wash thoroughly in running H20
Zenker-Formol (Helly’s)–HgCl2 , K2Cr2O7 for pituitary, BM, spleen, liver; brown pigment produced–remove by picric/NaOH
Heidenhain’s Susa – HgCl2, NaCl, TCA for skin biopsies; place in high grade ROH
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Mercuric chloride
(new) B-5 fixative for bone marrow biopsies
- HgCl2, anhydrous Na acetate
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Dezenkerization
HgCl2 deposits are removed by alcoholic iodine solution prior to staining
Oxidation w/ Na to mercuric iodide, removed by treatment with Na thiosulfate: Bring slides to water. Immerse in Lugol’s
iodine (5mins), running water (5mins), 5% Na thiosulfate (5mins), running water (5mins), proceed with required water soluble stain
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Chromate Fixatives
Chromic Acid – preserves CHO K2Cr2O7 – preserves lipids, mitochondria Regaud’s (Moller’s) – 3% K2Cr2O7 – for
chromatin, mitochondri, Golgi, RBC, colloid, mitotic figures; slow, not for fats
Orth’s – 2.5% K2Cr2O7 – for Rickettsia, bacteria, myelin
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Lead Fixatives
For acid MPS Fixes connective tissue mucin Forms insoluble lead carbonate – remove
by filtering or adding HAc
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Picric Acid fixatives (yellow)
Bouin’s (picric, HCHO, glacial) – for embyros, glycogen, does not need washing out; poor penetration, not good for kidneys, mitochondria, hemolyzes RBC
Brasil’s alcoholic picroformol (w/TCA) – good for glycogen; better & less messy than Bouin’s
Remove yellow color by 70% ethanol followed by 5% sodium thiosulfate & running water
Highly explosive when dry
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Glacial Acetic Acid
Solidifies at 17 degrees C glacial For nucleoproteins, chromosomes Contraindicated in cytoplasmic fixatives
destroys mitochondria & golgi
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Alcohol Fixatives (fixative/dehyd)
- Denatures/ppt CHONs (destroys H bonds) Methanol – BM / bld smears, slow Ethanol – strong reducing agent Carnoy’s-absolute ROH, CHCl3, glacial
HAc (most rapid); RBC hemolysis Alcoholic Formalin (Gendre’s) - sputum Newcommer’s – isopropyl ROH, propionic
acid, petroleum ether, acetone, dioxane – for MPS
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Alcohol Fixatives (fixative/dehyd)
Disadavantage:
Polarization – causes glycogen granules to move towards the poles / ends of cells
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Osmium Tetroxide (Osmic Acid)
Fixes fats, for EM Expensive, poor penetration, reduced w/
sunlight black deposit; dark bottle Acid vapor conjunctivitis, osmic oxide in
cornea blindness Inhibits hematoxylin Extremely volatile Flemming’s (w/ and w/o acetic acid)
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TCA
Weak decalcifying agent Poor penetration
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Acetone
Use at ice cold temp (-5C to 4C) Fixes brain – for rabies Dissolves fat, evaporates rapidly,
preserves glycogen poorly
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Heat Fixation
Thermal coagulation of tissue proteins For frozen sections / bacteriologic smears
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Post Chromatization
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Secondary Fixation
To demonstrate some substances better May act as mordant – for special staining To ensure further and complete hardening
and preservation of tissues
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Washing out
Tap water 50 – 70 % alcohol Alcoholic iodine
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Fixation
Retarded by: Large size Mucus Fat Blood Cold
Enhanced by: Small / thin tissue Agitation Moderate heat (37 to
56 degrees C)
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Decalcification
Bones, teeth, calcified tissues – tuberculous lungs, arteriosclerotic vessels
Poor cutting of hard tissues / knife damage
Know patient’s case - if too large – use saw
Change decalcifying agent regularly
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Decalcification*
“grating” sensation during cutting = place block in 10 % HCl for 1 hour
Rapid decalcification – produces effect on nuclear staining – (failure of nuclear chromatin to take up hematoxylin)
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Decalcification
Acids Chelating Agents Ion Exchange Resins (Ammonium form of
polystrene resin) Electrical Ionization (Electrophoresis)
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Decalcification
Acids – HNO3, HCl, formic, TCA, sulfurous, chromic, citric
Chelating Agents – EDTA - slow Ion Exchange Resins (Ammonium form of
polystrene resin) – 1 – 14 days – spread on bottom of container
Electrical Ionization (Electrophoresis) – attraction of Ca to negative electrode
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Acids
Most common Stable Easily available Cheap Nitric, hydrochloric, formic, TCA,
sulfurous, chromic, citric acid
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Nitric Acid (5-10%)
Most common Fastest Disadvantage: inhibits nuclear stain –
combine with formaldehyde or alcohol Aqueous nitric acid 10%, formol nitric acid,
Perenyi’s, Phloroglucin – nitric acid
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Nitric Acid
Aqueous nitric acid 10% = 12-24 hours Concentrated nitric acid w/ distilled water Rapid, with minimal tissue distortion (if
prolonged) Yellow color imparted
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Nitric Acid
Formol – Nitric Acid = 1 – 3 days Rapid acting Good nuclear staining Less tissue destruction than 10% aqeuous
nitric acid Use fume hood Lessen yellow tissue discoloration by 5%
sodium sulfate or 0.1 % urea
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Nitric Acid
Perenyi’s = 2-7 days 10% nitric acid, 0.5% chromic acid, absolute
ethyl alcohol Decalcifies and softens Good nuclear and cytoplasmic staining Maceration avoided by chromic/ethyl Disadv: slow, difficult to assess complete
decalcification by chemical means
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Nitric Acid
Phloroglucin – Nitric Acid = 12 –24 hours Conc nitric + phloroglucin = dense white
fumes, then add 10% nitric acid Most rapid Disadv: poor nuclear staining * when decalcification is complete, acid must
be removed by 3 changes of 70 to 90% ethanol
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HCl
Slower action, greater tissue distortion Good nuclear staining * rapid proprietary solutions- w/ HCl * slow proprietary solutions - w/ buffered
formalin/formic acid Von Ebner’s fluid – NaCl, HCl, H20
Good cytologic staining
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Formic Acid
Better nuclear staining with less tissue distortion & * safer to handle than nitric and HCl
2-7 days - slow Fixative & decalcifying agent Excellent nuclear & cytoplasmic staining
Formic acid – sodium citrate solution (better nuclear staining than nitric acid)