The document discusses equipment used in histopathology and cytology laboratories. It describes tissue processors that prepare tissue samples for analysis through fixing, staining, dehydrating or decalcifying. It also discusses microtomes used to cut thin tissue sections, tissue floatation baths that relax tissue sections before mounting, cryostats for cutting frozen sections, and maintenance of this equipment. Histopathology examines tissue samples to study disease manifestations microscopically.
This presentation deals tissue processing in histopathology, the detailed of presentation given blow:
Histology, study the organization of tissues at all levels, from the whole organ down to the molecular components of cells that are found in most multicellular plants and animals.
Animal tissues are classified as epithelium, with closely spaced cells and very little intercellular space; connective tissue, with large amounts of intercellular material; muscle, specialized for contraction; and nerve, specialized for conduction of electrical impulses. Blood is also sometimes considered a separate tissue type.
Plants are composed of relatively undifferentiated tissue known as meristematic tissue; storage tissue or parenchyma; vascular tissue; photosynthetic tissue or chlorenchyma and support tissue or sclerenchyma and collenchyma.
This presentation deals tissue processing in histopathology, the detailed of presentation given blow:
Histology, study the organization of tissues at all levels, from the whole organ down to the molecular components of cells that are found in most multicellular plants and animals.
Animal tissues are classified as epithelium, with closely spaced cells and very little intercellular space; connective tissue, with large amounts of intercellular material; muscle, specialized for contraction; and nerve, specialized for conduction of electrical impulses. Blood is also sometimes considered a separate tissue type.
Plants are composed of relatively undifferentiated tissue known as meristematic tissue; storage tissue or parenchyma; vascular tissue; photosynthetic tissue or chlorenchyma and support tissue or sclerenchyma and collenchyma.
A tissue processor is used to prepare tissue samples for analysis by fixing, staining, dehydrating or decalcifying them.
The techniques for processing the tissue, whether biopsies, larger specimen removed at surgery
Histopathology is examination of tissues for presence or absence of changes in their structure due to disease processes. We go through various steps in the process of converting gross sample to microscopic slides.
A tissue processor is used to prepare tissue samples for analysis by fixing, staining, dehydrating or decalcifying them.
The techniques for processing the tissue, whether biopsies, larger specimen removed at surgery
Histopathology is examination of tissues for presence or absence of changes in their structure due to disease processes. We go through various steps in the process of converting gross sample to microscopic slides.
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Stewardship is the act of taking good care of something.
Antimicrobial stewardship is a coordinated program that promotes the appropriate use of antimicrobials (including antibiotics), improves patient outcomes, reduces microbial resistance, and decreases the spread of infections caused by multidrug-resistant organisms.
WHO launched the Global Antimicrobial Resistance and Use Surveillance System (GLASS) in 2015 to fill knowledge gaps and inform strategies at all levels.
ACCORDING TO apic.org,
Antimicrobial stewardship is a coordinated program that promotes the appropriate use of antimicrobials (including antibiotics), improves patient outcomes, reduces microbial resistance, and decreases the spread of infections caused by multidrug-resistant organisms.
ACCORDING TO pewtrusts.org,
Antibiotic stewardship refers to efforts in doctors’ offices, hospitals, long term care facilities, and other health care settings to ensure that antibiotics are used only when necessary and appropriate
According to WHO,
Antimicrobial stewardship is a systematic approach to educate and support health care professionals to follow evidence-based guidelines for prescribing and administering antimicrobials
In 1996, John McGowan and Dale Gerding first applied the term antimicrobial stewardship, where they suggested a causal association between antimicrobial agent use and resistance. They also focused on the urgency of large-scale controlled trials of antimicrobial-use regulation employing sophisticated epidemiologic methods, molecular typing, and precise resistance mechanism analysis.
Antimicrobial Stewardship(AMS) refers to the optimal selection, dosing, and duration of antimicrobial treatment resulting in the best clinical outcome with minimal side effects to the patients and minimal impact on subsequent resistance.
According to the 2019 report, in the US, more than 2.8 million antibiotic-resistant infections occur each year, and more than 35000 people die. In addition to this, it also mentioned that 223,900 cases of Clostridoides difficile occurred in 2017, of which 12800 people died. The report did not include viruses or parasites
VISION
Being proactive
Supporting optimal animal and human health
Exploring ways to reduce overall use of antimicrobials
Using the drugs that prevent and treat disease by killing microscopic organisms in a responsible way
GOAL
to prevent the generation and spread of antimicrobial resistance (AMR). Doing so will preserve the effectiveness of these drugs in animals and humans for years to come.
being to preserve human and animal health and the effectiveness of antimicrobial medications.
to implement a multidisciplinary approach in assembling a stewardship team to include an infectious disease physician, a clinical pharmacist with infectious diseases training, infection preventionist, and a close collaboration with the staff in the clinical microbiology laboratory
to prevent antimicrobial overuse, misuse and abuse.
to minimize the developme
Defecation
Normal defecation begins with movement in the left colon, moving stool toward the anus. When stool reaches the rectum, the distention causes relaxation of the internal sphincter and an awareness of the need to defecate. At the time of defecation, the external sphincter relaxes, and abdominal muscles contract, increasing intrarectal pressure and forcing the stool out
The Valsalva maneuver exerts pressure to expel faeces through a voluntary contraction of the abdominal muscles while maintaining forced expiration against a closed airway. Patients with cardiovascular disease, glaucoma, increased intracranial pressure, or a new surgical wound are at greater risk for cardiac dysrhythmias and elevated blood pressure with the Valsalva maneuver and need to avoid straining to pass the stool.
Normal defecation is painless, resulting in passage of soft, formed stool
CONSTIPATION
Constipation is a symptom, not a disease. Improper diet, reduced fluid intake, lack of exercise, and certain medications can cause constipation. For example, patients receiving opiates for pain after surgery often require a stool softener or laxative to prevent constipation. The signs of constipation include infrequent bowel movements (less than every 3 days), difficulty passing stools, excessive straining, inability to defecate at will, and hard feaces
IMPACTION
Fecal impaction results from unrelieved constipation. It is a collection of hardened feces wedged in the rectum that a person cannot expel. In cases of severe impaction the mass extends up into the sigmoid colon.
DIARRHEA
Diarrhea is an increase in the number of stools and the passage of liquid, unformed feces. It is associated with disorders affecting digestion, absorption, and secretion in the GI tract. Intestinal contents pass through the small and large intestine too quickly to allow for the usual absorption of fluid and nutrients. Irritation within the colon results in increased mucus secretion. As a result, feces become watery, and the patient is unable to control the urge to defecate. Normally an anal bag is safe and effective in long-term treatment of patients with fecal incontinence at home, in hospice, or in the hospital. Fecal incontinence is expensive and a potentially dangerous condition in terms of contamination and risk of skin ulceration
HEMORRHOIDS
Hemorrhoids are dilated, engorged veins in the lining of the rectum. They are either external or internal.
FLATULENCE
As gas accumulates in the lumen of the intestines, the bowel wall stretches and distends (flatulence). It is a common cause of abdominal fullness, pain, and cramping. Normally intestinal gas escapes through the mouth (belching) or the anus (passing of flatus)
FECAL INCONTINENCE
Fecal incontinence is the inability to control passage of feces and gas from the anus. Incontinence harms a patient’s body image
PREPARATION AND GIVING OF LAXATIVESACCORDING TO POTTER AND PERRY,
An enema is the instillation of a solution into the rectum and sig
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18.Histopathology Section.pptx
1. MoHFW /CDC / BD Partnership Project
LABS FOR LIFE PROJECT - INDIA
Equipment
Management
2. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Histopathology
Compound of three Greek words: histos "tissue", pathos "suffering", and logia "study of“
• It refers to the microscopic examination of tissue in order to study the manifestations of
disease.
• In clinical medicine, histopathology refers to the examination of a biopsy or surgical
specimen by a pathologist, after the specimen has been processed and histological sections
have been placed onto the glass slide.
• Histopathological examination of tissues starts with surgery, biopsy, or autopsy.
• The tissue is removed from the body and then placed in a fixative which stabilizes the tissues
to prevent decay.
• The most common fixative is formalin (10% formaldehyde in water).
3. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
TISSUE PROCESSOR
A tissue processor is used to prepare tissue samples for analysis by fixing, staining, dehydrating
or decalcifying them.
These instruments allow the specimens to be infiltrated with a sequence of different solvents
finishing in molten paraffin wax.
The specimens are in an aqueous environment to start with (water-based) and must be passed
through multiple changes of dehydrating and clearing solvents (typically ethanol and xylene)
before they can be placed in molten wax (which is hydrophobic and immiscible with water).
The duration and step details of the “processing schedule” chosen for a particular batch of
specimens will depend on the nature and size of the specimens.
Schedules can be as short as one hour for small specimens or as long as twelve hours or more
for large specimens.
Types of processors:
1. The tissue-transfer (or “dip and dunk”) equipment where specimens are transferred from
container to container to be processed
2. The fluid-transfer (or “enclosed”) types where specimens are held in a single process
chamber or retort and fluids are pumped in and out as required.
4. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Automated Tissue Processor
Important Parts and Maintenance:
(a) Tissue containers - These are also the cassettes. The tissue to be
processed is placed in an appropriate container, together with a label and
the lid snapped on.
(b) Beakers and wax baths - Most equipment are equipped with ten beakers
and 2 wax baths thermostatically controlled.
(c) Stirring mechanism - The basket is attached to the arms of the
equipment on which one arm is designed in such a manner so as to bring
about the rotation of the basket nearly at the rate of one revolution per
minute.
(d) Timing mechanism - Timer is meant to keep the tissue in different
reagents and wax for an optimum time.
(e) Persons responsible for operating the instrument should be properly
trained in its use and training record to be documented.
(f) Instrument operating manual should be as per the manufacturer’s
instructions and SOP and calibration procedure should be done as defined by
them.
It would vary from instrument to instrument as per the specification.
5. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Some important steps of tissue processing are as below
Dehydration
• Melted paraffin wax is hydrophobic (immiscible with water), most of the water in a specimen
must be removed before it can be infiltrated with wax.
• This process is commonly carried out by immersing specimens in a series of ethanol
(alcohol) solutions of increasing concentration until pure, water-free alcohol is reached.
• Ethanol is miscible with water in all proportions so that the water in the specimen is
progressively replaced by the alcohol. A series of increasing concentrations is used to avoid
excessive distortion of the tissue.
• Use of copper sulphate in final alcohol: A layer of anhydrous CuSO4 is placed at the bottom
of a dehydrating bottle or beaker and is covered with 2-3 filter papers of approximate size to
prevent staining of the tissue.
• Anhydrous CuSO4 removes water from alcohol as it in turn removes it from tissues.
• Anhydrous CuSO4 is white in color while the hydrated form is blue.
6. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Clearing
The term “clearing” was chosen because many (but not all) clearing agents impart an optical
clarity or transparency to the tissue due to their relatively high refractive index.
• We now have to use an intermediate solvent that is fully miscible with both ethanol and
paraffin wax.
• This solvent will displace the ethanol in the tissue, then this in turn will be displaced by
molten paraffin wax.
• This stage in the process is called “clearing” and the reagent used is called a “clearing agent”.
• Another important role of the clearing agent is to remove a substantial amount of fat from
the tissue which otherwise presents a barrier to wax infiltration.
• A popular clearing agent is xylene and multiple changes are required to completely displace
ethanol.
• A typical clearing sequence for specimens not more than 4mm thick would be:
Xylene 20 min
Xylene 20 min
Xylene 45 min
7. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Wax infiltration
• The tissue can now be infiltrated with a suitable histological wax.
• Paraffin wax-based histological waxes are the most popular.
• A typical wax is liquid at 60°C and can be infiltrated into tissue at this temperature then
allowed to cool to 20°C where it solidifies to a consistency that allows sections to be
consistently cut.
• These waxes are mixtures of purified paraffin wax and various additives that may include
resins such as styrene or polyethylene.
• It should be appreciated that these wax formulations have very particular physical properties
which allow tissues infiltrated with the wax to be sectioned at a thickness down to at least 2
µm, to form ribbons as the sections are cut on the microtome, and to retain sufficient
elasticity to flatten fully during flotation on a warm water bath.
• A typical infiltration sequence for specimens not more than 4mm thick would be:
Wax 30 min
Wax 30 min
Wax 45 min
8. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Maintenance
• Use of an inappropriate processing schedule or the making of a fundamental mistake (perhaps
in replenishing or sequencing of processing reagents) can result in the production of tissue
specimens that cannot be sectioned and therefore will not provide any useful microscopic
information.
• Although mechanical or electrical faults occasionally occur in tissue processors, processing
mishaps where tissues are actually compromised, mainly occur because of human error.
• The need for UPS is very vital in ensuring uninterrupted carousal movements.
• Interruption to carousal movement may result in the basket hanging above and drying out
and tissue damage.
• Similarly, prolonged immersion in Xylene, Isopropyl alcohol etc. will result in hardening of
tissue.
• It is important to have a programming worksheet for the reagent change schedule for
reference.
• The need for change depends on the volume of work. The number of blocks processed before
change of the alcohols, xylenes, wax etc. should be considered while a procedure for this is
developed and documented
9. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Maintenance
• Since most tissue processors are run during night hours, there should be arrangement for
interventions in case of breakdown.
• Interruption to carousal movement may result in the basket hanging above and drying out
and tissue damage.
• Pronged immersion in Xylene, Isopropyl alcohol etc. will result in hardening of tissue.
• It is important to have a programming worksheet for the reagent change schedule for
reference.
• Mop up spilled reagents immediately.
• Clean the instrument on a daily basis.
• Once a month, lift the carousel cover to its upper end position, clean the carousel axle with
a cleaning cloth and subsequently apply a thin coat of equipment oil.
• Have a preventive maintenance done once a year by a service manager authorized.
• Once the warranty period expires, it is recommended to purchase a service contract.
As per NABL 112
• Depending on the workload the laboratory must develop a procedure to change the tissue
processing fluids and maintain a record of it.
• A log recording of the ‘time setting schedule’ for an automatic tissue processor must be
maintained.
•Temperature of the wax bath must be checked and recorded daily.
10. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Monitoring
Points to noted
Fluid and wax beakers must be filled upto appropriate mark and located in their correct
position in the machine.
Any spillage of the fluid should be wiped away.
Accumulations of wax must be removed from beaker, covers, lids and surrounding areas.
Wax bath thermostats should be set at satisfactory levels usually 2-3°C above the melting
point of wax.
Particular attention should be paid to fastening the processing baskets on the crousel type of
machines, if the baskets are shed they will remain in one particular regent for a long period
till it gets noticed.
Timing should be set with utmost care when loading the machine.
Paraffin wax baths should be checked to ensure that the wax is molten
Formats to be prepared and the tissue processing data for each cycle should be documented.
11. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
MICROTOME: ROTARY MICROTOME
• A microtome is a tool with blades used to cut extremely thin slices of tissues, known as
sections. Several types of microtomes are available - rotary, rocking, base-sledge etc.
• Microtomes use different kinds of blades depending upon the specimen being sliced and the
desired thickness of the sections being cut. The tissue is cut in the microtome at thicknesses
varying from 2 to 50 µm.
• The consistently thin samples obtained by microtomy, together with the selective staining of
important cell components or molecules allow for the visualization of microscope details in
tissues for histopathological analysis.
• This device operates with a staged rotary action such that the actual cutting is part of the
rotary motion.
• The flywheel in many microtomes can be operated by hand.
12. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Components
•Microtome base plate or stage
•Knife holder base
•Knife holder
•Cassette clamp or block holder
•Coarse hand wheel
•Micron adjustment
13. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Microtome knives
Types of microtome knives:
Microtome knives are classified by the manner in which they are ground and seen in their
cross section.
• Plane wedge: It is used for paraffin and frozen sections.
• Plano concave: used for celloid in section since the blade is thin it will vibrate when for
used for other harder materials.
• Biconcave: It is recommended for paraffin section cutting on rocking and sledge type of
microtome.
• Tool edge: This is used with a heavy microtome for cutting very hard tissues like
undecalcified bone.
14. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Cleaning and daily maintenance :
Before cleaning:
•Lock the rotary hand wheel.
•Remove the microtome blade from the knife holder.
•Remove knife holder base and knife holder for cleaning
Cleaning:
•Remove all sectioning waste with a dry brush.
•To remove paraffin residue, use paraffin removing product.
•Clean the outside surfaces with warm soapy water, and dry with a moist cloth.
Safety precautions
• Do not handle the blade with unprotected hands.
• Microtome with non-disposable knife should have a safety shield
• Make sure to use forceps and wear gloves. Do not leave the blade exposed during sample
loading and unloading. Remember to cover the blade.
• Cover the blade by using the provided finger guards or a protective foam guard over the
blade during mounting/removal of sample.
• Use forceps to remove the blade and wear two layers of nitrile gloves to help protect your
skin
• Do not skip Personal Protective Equipment (PPE) – gloves can minimize or possibly prevent
cuts and lacerations
15. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Microtome Knife Sharpening
• This is done by manual or automatic methods.
• Two steps: -honing and stropping are employed for knife sharpening
Honing:
Microtome knives are sharpened against a special stone called “Hone”. Honing refers to
grinding the cutting edge of the knife on a hard abrasive surface to sharpen the knife.
Stropping:
This is a process of polishing an already fairly sharp edge that may be flexible (hanging) or rigid. .
Knife Sharpening Equipment
Despite high cost these equipment are popular because they are less time consuming.
16. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Daily:
1.Lock the microtome hand wheel.
2.Remove all section debris, using either alcohol-soaked paper towel or a suitable vacuum
system.
3.Carefully remove all specimen trimmings.
4.Remove all specimens.
5.Remove all blades or knives.
6.Remove all used specimen holders and soak in warm soapy water to ensure that all
cryocompound is removed; air or oven dry.
Weekly:
1.Empty fluid container (this fluid is collected during the daily defrost cycles).
2.Thoroughly clean and lubricate all contact surfaces of the knife holders.
Monthly:
1.Spindle lubrication: ensure that the hand-wheel of the microtome is locked, using the coarse
advance bring the microtome spindle (object head) forward.
2.Using a disposable pipette place a few drops of low-temperature oil (supplied with the
cryostat) onto the rear (close to the microtome housing) upper surface of the spindle
3.Retract the spindle to its home position.
4.Check the side compressor vents to remove all dust etc.
Annual:
Have the instrument serviced by Manufacturer trained and approved service engineers.
17. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
TISSUE FLOATATION BATH
• The tissue floatation/ water baths are used to float paraffin ribbons, to stretch sections and
remove wrinkles and folds before placing sections on the slide. Simply sticking paraffin
ribbons on slides does not work.
• A warm water bath allows tissue to relax and smooth out prior to being mounted on a glass
slide. The warmth also makes the paraffin stick to the glass slides.
• These water baths are filled with distilled water, heated to a temperature 5-10° C below the
melting point of paraffin, and the water bath is usually kept at 40-50° C.
• This is an optimal temperature range for various types of paraffins.
• Hard paraffin will require a higher water temperature to relax, while softer paraffins will
benefit from a lower water temperature since they may disintegrate at higher temperatures.
18. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Maintenance
Water baths are equipment whose maintenance is simple. The recommended routines mainly
focus on the cleaning of external components.
1.Water must be kept clean and changed at least daily.
2.Keep empty reservoir covered to prevent fibers and dust from settling and becoming a
potential contaminant.
3.Water surface must be skimmed with a laboratory-grade wipe to prevent contamination of
debris between each ribbon.
4.Temperature of the bath should be checked and recorded daily.
5.Check the thermometer or temperature controls every three months using known standards.
If no reference standard is available, use an ice/water mixture and/or boiling water. Note that
the thermometer or the water bath temperature controls should also be checked when the
equipment is first installed after purchase.
Limitations
The water bath may introduce artifacts to sections.
As per NABL 112-
1.The fluid in the flotation bath shall be changed at least once a day.
2.The surface of the water bath shall be skimmed regularly during section cutting to remove
floaters.
19. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
CRYOSTATS
• The tissue can be rapidly frozen and kept frozen while sections are cut using a cryostat
microtome (a microtome in a freezing chamber). These are called “frozen sections”.
• Frozen sections can be prepared very quickly and are therefore used when an intra-operative
diagnosis is required to guide a surgical procedure or where any type of interference with the
chemical makeup of the cells is to be avoided.
Types
Several types of cryostats are commercially available and can be categorized as follows:
a. Single compressor (chamber cooling only)
b. Double compressor (chamber and object cooling)
c. Manual sectioning
d. Motorized sectioning
The normal working chamber temperature is from 0°C to −35°C, the limiting factor being the
type of compressor and refrigerant used.
Cryosectioning at temperatures lower than −35°C requires the use of a cryogen such as liquid
nitrogen.
20. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Maintenance
• Cryostats must be located in a draught-free, humidity-controlled area, with clearance of 30
cm, on all sides to ensure that there is unrestricted air movement around the instrument.
• All accessories; knife holder, antiroll guide, brush trays, etc. should be placed into the
chamber prior to the instrument being turned on.
• Always clean the equipment between users and at the end of a session. Perform a
comprehensive decontamination by removing the stage and allowing it to come to room
temperature before cleaning. Allow it to dry completely before returning it to the cryostat.
• Use a pair of forceps to carefully remove the knife. Either discard the knife directly in a
sharps container or if re-using it, place in a container of disinfectant to soak.
• Specimen shavings should be removed after each use.
• The waste tray that is underneath the microtome spindle should be carefully lifted out and
the shavings/debris placed into a biohazard bag.
• Other shavings and specimen debris can be wiped up using either paper towel or a gauze
swab soaked in 70% alcohol. During this procedure it is important to minimize aerosols and
to prevent sectioning debris from spilling onto open surfaces.
• Use a cloth, manipulated with forceps where possible, to scrub and decontaminate. If
needed, use a handled brush to access hard to reach areas, though a brush is more likely to
splatter so it is necessary to use facial protection.
• Soak up residual disinfectant and rinse/dry with 95% ethanol. Let air dry.
21. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Safety precautions
1.Histology specimen preparation in the BSL-1 and BSL-2 Lab involves very sharp blades and
hence strict adherence to safety measures is critical.
2.Do not handle the blade with unprotected hands.
3.Make sure to use forceps and wear gloves. Do not leave the blade exposed during sample
loading and unloading. Remember to cover the blade.
4.Cover the blade by using the provided finger guards or a protective foam guard over the blade
during mounting/removal of sample.
5.Use forceps to remove the blade and wear two layers of nitrile gloves to help protect your skin
6.Do not skip Personal Protective Equipment (PPE) – gloves can minimize or possibly prevent
cuts and lacerations.
As per NABL 112
Frozen section/squash smear:
a.A specific area should be demarcated for performing frozen sections.
b.Fresh tissue received for frozen section should be treated as infective and universal
precautions should be taken.
c.Frozen sections/squash smears should be recorded like other specimens in the request form.
Left over tissue must be processed for permanent section.
d.The turnaround time for frozen section/squash smears should not exceed 30 minutes.
e.Frozen section/squash smears shall be retained and filed along with the permanent sections
for the stipulated time.
22. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Prion disease suspected specimens:
• In a suspected case of prion disease, facilities should be available for safe handling of
specimens.
• The biopsy specimen shall be considered as bio-hazardous and transferred to concentrated
formic acid (96%) for 48 hours, subsequently to 10% formalin for 24 hours and then
processed.
• The blocks should be labeled bio hazardous. The trimmings of the block shall be disposed by
incineration.
• All instruments used for sectioning should be left in 2M NaOH for 1 hour and washed in
running water for 15 minutes and reused.
• The microtome should be wiped clean with 2M NaOH and left for 1 hour. Subsequently the
instrument should be wiped clean with tap water followed by alcohol before reuse.
23. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
ANTIGEN RETRIEVAL SYSTEMS
• In the majority of cases, tissue specimens for immune histochemical (IHC) staining are
routinely fixed in formalin and subsequently embedded in paraffin.
• Suboptimal methods of antigen retrieval and buffer used can result in poor antigen retrieval
or over expression or overcalling
Several methods of antigen retrieval are available
1. Water Bath Methods
2. Pressure Cooker Heating
3. Autoclave Heating
4. Microwave Oven Heating
5. Proteolytic Pre-treatment
6. Combined Proteolytic Pre-treatment and Antigen Retrieval
7. Combined Deparaffinization and Antigen Retrieval
24. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
CYTOCENTRIFUGATION
• Cytocentrifugation is centrifugation using a Cytocentrifuge. Using centrifugal principles, the
cells are deposited onto a clearly-defined area of a glass slide.
• The monolayer distribution enhances the morphological appearance of the cells present.
• It is suitable for complete range of body fluids like CSF, Pleural fluid, Sputum, Urine, Synovial
fluids, Peritoneal fluids, Bronchial washings, Fine needle aspirates etc.
• The technique is a quick method to collect and concentrate above mentioned fluids that
contain a low number of target cells.
• It provides more cells than which would be present in a wedge smear preparation on the
same sample and therefore, provides for greater precision in counting.
• A prominent advantage of the Cytocentrifuge is the much smaller area to review and
consequently the shortened time required to read the slides.
• Cytocentrifugation also constructively flattens cells for excellent nuclear presentation.
25. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Principle
• The principle of all cytocentrifugation techniques is that the cell is denser than the
suspending fluid and under an applied force the cell will have greater momentum than the
fluid.
• It produces good cell capture and representation of all cell types present in homogeneous
liquid samples. Key components
1. Power ON-OFF Switch
2. ON-OFF Switch Lamp
3. Lid
4. Lid Latch
5. Rotor Bowl
6. Rotor
7. Lid Seal
8. Control Panel
.
26. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
Maintenance
Daily
1.Wipe the external surfaces with a clean cloth moistened with neutral detergent. Pat dry any
excessively moist areas.
2.Wipe the rotor bowl with a cloth wet with disinfecting solution. Then clean the rotor bowl by
wiping it with a clean cloth moistened with neutral detergent.
3.Disconnect the drain hose and place a pan under the drain port of the instrument. Thoroughly
rinse the rotor bowl with clear water. Completely dry the rotor bowl with a clean, lint-free cloth.
4.Do not use excessive quantities of liquid when cleaning the rotor bowl.
5.All the reusable components like specimen chamber holder, rubber gasket, specimen
chamber, and specimen chamber cap should be carefully decontaminated and cleaned prior to
use. All components should be soaked in an approved disinfectant. After soaking the
components in an approved disinfectant, they should be cleaned in hot water and detergent.
The water temperature should not exceed 40° C.
As per NABL 112
1.All equipment such as centrifuges capable of creating bio-hazardous aerosols should be used
in extractor cabinets or rooms fitted with extractor facilities.
2.The laboratory performing Cytopathology tests on CSF must use Cytocentrifuge for processing
the sample.
27. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
LIQUID BASED CYTOLOGY
• Liquid-based cytology is a method of preparing samples for examination in cytopathology.
• The sample is collected, normally by a small brush, in the same way as for a conventional
smear test, but rather than the smear being transferred directly to a microscope slide, the
sample is deposited into a small bottle of preservative liquid.
• At the laboratory, the liquid is treated to remove other elements such as mucus before a layer
of cells is placed on a slide.
• The technique allows more accurate results. It has gained popularity as a method of
collecting and processing both gynecologic and non-gynecologic cytological specimens.
• It achieves a diagnostic sensitivity as accurate as conventional preparations especially for its
excellent cell preservation and for the lack of background which decrease the amount of
inadequate diagnoses.
29. CONVENTIONAL PAP
• Sample Collection
• Specimen Smearing & Slide Fixing
– Standardization
– Discard Collection Brush ( important diagnostic
material)
• Slide Staining ( in Lab)
– Microscopic visualization of the larger area on the
slide.
Conventional Pap
30. HISTOPATHOLOGY AND CYTOLOGY EQUIPMENT
• Conventional Pap smears can have false-negative and false-positive results because of
inadequate sampling and slide preparation, and errors in laboratory detection an
interpretation.
• LBC rinses Cervical cells in preservatives so that blood and other potentially obscuring
material can be separated.
• It also allows for additional testing of the sample, such as for human papillomavirus (HPV).
Editor's Notes
The processors are mostly single unit devices that can accommodate a variety of processing techniques to suit different needs of the laboratory, therefore improving the efficiency of tissue processing. In many labs the bulk of processing is carried out overnight.
Most modern fluid-transfer processors employ raised temperatures, effective fluid circulation and incorporate vacuum/pressure cycles to enhance processing and reduce processing times.
Although the tissue is now essentially water-free, we still cannot infiltrate it with wax because wax and ethanol are largely immiscible.
Hone is placed on a non-skid surface. A damp cloth may be used-to prevent movement of the hone. Light lubricating oil/soapy water is used for lubrication. The knife complete with handle and backing sheath is laid on the hone with the cutting edge facing away from the operator and the heel roughly at the center of the nearest end of hone. Knife is held between the thumb and the fore finger, thumb on the back and forefinger on the front surface The knife is pushed forward diagonally from heel to toe to the other end of the hone, turned over on its back and moved across the hone until the heel is in the center with the cutting edge leading and then brought back diagonally. It is then turned across the hone to its original position
Before use & regularly (annually), strops must be oiled (vegetable oil) & dressed, with fine carborundum powder. The rigid type is a single leather strop stretched over a wooden frame of about 12×2×2 inches
Disinfection systems are now offered by several cryostat manufacturers: A disinfectant spray system, formaldehyde vapor, a combination of disinfectant spray and UV light, and ozone. Each of these systems uses a different method to achieve a safe working environment; users are encouraged to thoroughly investigate the efficacy of each system prior to purchase.