HCT 04 | Tissue Processing 4 (Embedding and Sectioning)
What types of microtome utilize a more concave, plane-concave knife?
(1) Base-sledge (2) Rotary (3) Rocking
Two types of sliding microtome
(1) Base-sledge type (2) Standard sliding microtome
3 different types of hones
(1) Belgium yellow (2) Arkansas stone (3) Fine carborundum
3 essential parts present in all types of microtomes
(1) Block holder (2) Knife carrier and knife (3) Pawl rachet feed wheel with adjustment screws
Other names for embedding
(1) Casting (2) Blocking
Other names for the freezing microtome
(1) Cryocut (2) Cryostat (3) Cold microtome
Two stages in sharpening the knife
(1) Honing (2) Stropping
2 types of concave knives used in a plane-concave knife
(1) Less concave (2) More concave
7 molds used for embedding
(1) Leuckhart's embedding iron (2) Compound embedding unit (3) Plastic embedding ring and base mold (4) Peel-a-way (5) Paper mold or boat (6) Plastic ice trays (7) Disposable embedding mold
Equipment that converts paraffin wax from solid to liquid state upon heating
(1) Liquid paraffin wax dispenser (2) Paraffin bath
3 types of microtome knives
(1) Plane-concave knife (2) Plane-wedge knife (3) Biconcave knife
5 types of microtome
(1) Rocking microtome (2) Rotary microtome (3) Sliding microtome (4) Freezing microtome (5) Ultrathin microtome
3 requirements to produce a good quality tissue section
(1) Skill of the microtomist (2) A sharp knife in good condition (3) Microtome in good condition
Thickness of tissue sections through xyloidin sectioning
10-15 microns
Range of the bevel angle
27-32 degrees
Average micron thickness of the tissue sections set for microtomy
5 microns (range: 4-6 microns)
Range of the clearance angle
5-10 degrees
He invented the sliding microtome and what year did he invent it in
Adams in 1789
Type of sliding microtome where the block holder is set on a heavy metal base which can be moved backward and forward under the knife during cutting
Base-sledge type microtome
Temperature to keep the tissue flotation bath in during the flattening of the tissue sections
Between 45-50 degrees Celsius or 6-10 degrees Celsius below the melting point of the wax
It is the angle formed between the cutting edges of the knife
Bevel angle
Most rarely used microtome knife
Biconcave knife
Type of microtome knife whose 2 sides are both concave
Biconcave knife
Part of the microtome where the tissue is held in position
Block holder
It is the angle formed between the tissue block and the cutting edge of the knife between two smooth plane surfaces
Clearance angle
Other name for honing
Coarse sharpening
When is a plane-wedged knife used for?
Cutting frozen sections or hard and difficult specimens embedded in paraffin blocks
When is a biconcave knife utilized
Cutting paraffin sections on a rotary microtome
A process whereby the impregnated tissue is placed into a precisely arranged position in a mold containing melted paraffin which is then allowed to solidify
Embedding
Designates all materials used to infiltrate, support, and enclose specimens which would be subsequently cut into thin sections
Embedding medium
The rotation of the handwheel should be done in a rapid, counter-clockwise, and even rotation to produce a tissue ribbon (t/f)
False; clockwise
The pawl rachet feed wheel with adjustment screws is located on the right side of the microtome when facing the machine (t/f)
False; on the left side
The medium used for embedding is the different from the medium used for infiltration (t/f)
False; they're the same
Other name for stropping
Fine sharpening
When is a less concave, plane-concave knife used?
For cutting celloidin embedded tissue
When is more concave, plane-concave knife used?
For cutting paraffin section
Equipment used to pick up the tissue from the paraffin bath to the mold
Forceps
Direction of how a knife is honed
Heel (handle end) to the toe (head portion)
It is the removal of gross nicks and irregularities on the knife edge
Honing
Used to hasten solidification and prevent crystallization of the paraffin block during embedding
Ice bath or cold water
Part of the microtome used for actual cutting of tissue sections
Knife carrier and knife
Commonly used adhesive which lets the tissue sections adhere or stick to the glass slides
Meyer's egg albumin
Machine used for cutting
Microtome
The process whereby the paraffin embedded tissue is trimmed and cut into uniformly thin sections to facilitate studies under the microscope
Microtomy
He invented the rotary microtome and what year did he invent it in
Minot in 1885-85
Where to hold the glass slides
On the sides/edges
He invented the rocking microtome and what year he invented it in
Paldwell Trefall in 1881
Part of the microtome used to line up the tissue block in proper position with the knife
Pawl rachet feed wheel with adjustment screws
Microtome knives where one side is flat and the other is concave
Plane-concave knife
Type of microtome knife whose sides are both straight
Plane-wedge knife
He invented the freezing microtome and what year did he invent it in
Queckett in 1848
Microtome used for cutting serial sections of large blocks of paraffin-embedded tissue
Rocking microtome
Microtome used for cutting paraffin embedded sections (most common used)
Rotary microtome
Microtome used for cutting celloidin sections
Sliding microtome
What types of microtome utilize a less concave, plane-concave knife?
Sliding microtome
The most dangerous type of microtome
Standard sliding microtome
Type of sliding microtome wherein the block remains stationary while the knife is sliding backward and forward during sectioning
Standard sliding microtome
It removes the "burr" that forms when honing and polishes and sharpens the cutting edge of the knife
Stropping
First equipment used to remove the wrinkles and folds on the tissue sections
Teasing needle
This functions to flatten or spread the tissue sections
Tissue flotation bath
Purpose of placing the trimmed tissue blocks in ice prior to cutting
To harden the paraffin block since it becomes soft in room temp.
Reason for holding the glass slide on its sides/edges
To keep it clean and free from dust, oily substances, and fingerprints
Reason for keeping the tissue flotation bath at a lower temperature for flattening the tissue sections compared to infiltration
To prevent overheating which causes artefactual separation of the tissue sections
Direction of how a knife is stropped
Toe (head portion) to the heel (handle end)
Process of removing excess wax from the paraffin block before sectioning
Trimming
Xyloidin sectioning makes it impossible to produce ribbons (t/f)
True
Microtome used for cutting ultrathin sections for electron microscopy
Ultrathin microtome
Preferred method for xyloidin sectioning to avoid dehydration and shrinkage
Wet method
Sectioning that does not require chilling before cutting
Xyloidin sectioning
