1. Section Cutting
Dr Tamil Nila

2. Microtomy
• It is the means by which tissue is cut into thin sections & attached
to a surface of a slide
• Performed on Tissue blocks embedded in paraffin wax & frozen
sections
• Instrument : Microtome

3. Microtomes
• Mechanical device designed for accurate cutting of thin, uniform
tissue sections for microscopic examination
• An advancing mechanism moves the block towards the cutting
tool for a predetermined distance
• The tissue moves vertically towards the cutting tool
• Thickness is graduated in microns
• A ribbon of sections is produced
• Ideal thickness : 4 – 6 microns

4. Parts of a microtome
• Knife holder with base
• Anchors the knife holder to the stage
• Knife holder
• Blade clamp
• Knife tilt
• Face plate
• Coarse handwheel – for vertical motion (up and down)
• Micron adjustment
• Safety lock
• Advancement hand wheel – forward and backward movement

5. Types of Microtome
• Rocking microtome
• Rotary microtome
• Sledge microtome
• Sliding Microtome
• Freezing microtome

6. Rocking Microtome
• Oldest
• Knife is fixed
• Block moves through an arc
• Advantages
• Cheap, reliable, low maintenance
• Very small blocks can be cut
• Disadvantages
• Size of block that can be cut is limited
• Sections are cut in a curved plane
• It is to be fitted to avoid movement while cutting

7. Rotary Microtome
• Basic Mechanism : rotation of the hand wheel by 360 degrees
• Most commonly used
• Knife is fixed and the tissue moves vertically
• Mechanism to advance the block
• Retracting
• Non retracting
• Types
• Manual
• Semi Automated
• Fully automated

8. Rotary Microtomes
• Advantages
• Cuts thin sections 2 -3 microns
• Large number of sections
• Cuts all type of tissues
• Heavier & stable
• Large blocks can be cut
• Cutting angle can be adjusted
• Perfectly flat sections
• Disadvantages
• Repetitive motion disorder in histotechnicians
• Greater chance to cut finger

9. Sledge Microtome
• Specimen is held stationary
• Knife slides across the top of the specimen
• Advantages
• Very large & hard blocks of tissue
• Very stable & not subject to vibration
• 24 cm length knife requires less honing
• Angle of tilt can be changed
• Freezing stage is available
• Disadvantages
• Slower
• Thin sections are difficult to produce

10. Sliding Microtome
• Knife moves horizontally against a fixed tissue block
• Advantage
• Cuts both celloidin embedded & paraffin embedded sections
• Best results for cutting frozen sections
• Advantages
• Diagnosis in minutes
• Enzyme studies can be done
Freezing Microtome

11. Microtome knives
• Types
• Heiffor knife
• Larger knives
• Classification
• Metal knives
• Steel
• Razor blades
• Non metallic knives
• Glass
• Diamond

12. Standard Steel knives
• Plano concave
• Used in sledge & rotary microtomes
• Very concave is used for Celloidin
work
• Plane –Wedge
• Most common
• Easy to sharpen
• Biconcave
• Used in rocking & sledge
microtome
• Less rigid & prone to vibration
• Wedge
• Originally designed for cutting
frozen sections
• Tool Edge
• for very hard tissues
• Tungsten carbide at edge

13. Parts of metal knives
• Heel of the knife
• Angle between cutting edge & end of the knife nearest to handle
• Toe of the knife
• Angle between cutting edge & end of the knife farthest from handle
• Honing guide/ knife back sheath
• Gives angle while honing & stropping
• Handle

14. Microtome knife angles
• Wedge angle
• Angle between the sides of the knife
• Facet angle
• Angle between the actual cutting edges
• Greater than the wedge angle
• Clearance angle or tilt angle
• Angle between the block face and lower cutting facet of knife
• Only knife angle that can be adjusted
• Cutting angle
• Angle between the block face & upper cutting facet of the knife
• Rake angle
• 90 degree – angle of upper cutting facet of knife
• Larger rake angle easier cutting

16. Trimming the block
• At least 2mm of wax is left surrounding the tissue on all 4 sides
• Exposes the embedded tissue
• Edges of the block should be parallel

17. Fixing the block on the microtome
• Heat a flat spatula ( 1 – 2 inches) in a Bunsen flame
• Melt the wax by placing block on spatula
• Press the block on the holder & wait for it to harden

18. Technique
• Place the microtome on a sturdy table
• Insert knife & screw tight
• Mount the block within the clamp of the holder
• Adjust tilt of the knife = 2 – 6 degree
• Adjust the block holder – wax block almost touching the level of
the knife
• Tighten all the adjusting screws

19. Technique
• Bevel of the knife face is parallel to the cutting motion
• Section thickness = 10 – 15 microns
• Operate until complete sections are cut
• Reset section thickness to 4 – 5 microns
• Ice can be applied to the surface of block -> wiped -> cut
• Right hand operates the microtome
• Left hand holds sections away from the knife
• Gentle breathing on the block removes creases

20. Technique
• Ribbon formation
• Heat formation between the block & knife
• Sections adhere to each other
• Sections are held with
• Blunt forceps
• Camel hair brush
• Fingers
• Sections are floated on a warm water bath
• Collected with slides

21. Fixing the sections to slides
• Water bath method
• 25 – 30 cm in dm
• 8 – 10 cm in depth
• Black colored water baths
• To see the creases in the sections easily
• Thermostatically controlled
• Temperature is 5 – 10 degree Celsius below the melting
point of paraffin wax

22. Water bath method
• Sections lifted from the microtome & transferred to the surface of
water
• One end followed by other end of the tissue section is gently
lowered onto the water bath
• Use dissecting needles to iron out the creases
• Albuminised slide is dipped obliquely
• While withdrawing one end of the ribbon is attached to the slide
• Reposition the section on the slide if necessary
• Slide is marked immediately

23. Water bath method
• Slides in upright position to drain excess water
• Mounted slides are placed in an incubator at 37 degree celcius for
1 hr
• For albuminised slides
• Place in 60 degree inside oven x 2 hrs
• To dry & coagulate the albumin
• Disadvantages
• Bacterial contamination
• Floaters

24. Adhesives
• Mayer’s glycerol albumin
• 1 volume or glycerol
• 1 volume of egg white
• Pinch of thymol
• Starch paste
• Chrome gelatin
• Poly – L – lysine
• 3 – Aminopropyltriethoxysilane
• Araldite
• Charged or plus slides

26. Hot stage/ Plate method
• Metal top heated to 45 – 50 degrees
• Slide placed on the stage
• Flooded with distilled water
• Sections are floated
• When sections are completely flat, remove the plate
• Drain excess water

27. Warmed slide method
• Same as hot stage
• After the creases are removed
• Slide is held over a Bunsen burner for a seond
• Place in oven for drying

28. Why creases appear?
• Block wasn’t cold when cut
• Compression of wax by a blunt knife
• Poor bevel on the knife
• Incorrectly tilted knife

29. Why sections disappear?
• Exposure to strong alkaline solution during staining
• Tissue containing blood & mucous
• Decalcified tissues
• CNS tissues
• Sections exposed to extreme temperatures

30. Problems faced
Problems Reason Remedy
Scored
sections
Knife edge is damaged with
small nicks
Hard particles in the tissue or
paraffin
Use different part of the blade or replace
it
Decalcify if needed
Remove the hard particle with scalpel
Curled
sections
Dirty Knife
Blunt knife
Too much Tilt in the knife
Clean
Sharpen
Reduce the tilt
Thick & thin
zones in the
same section
Blade / block is loose in holders
Too much tilt
Hard tissue / Paraffin
Dull blade
Tighten by adjusting screws
Reduce the tilt angle
Use Softening agent
Replace the blade / remove excess
paraffin

31. Problems faced
Problem Reason Remedy
Crumbling
of sections
on cutting
Blunt knife
Soft wax
Crystallised wax
Sharpen or replace
Apply ice to cool the cutting surface
Rapidly cool the wax
Curving of
ribbon/
consecutive
sections
Block edges are not parallel to
each other & to the knife edge
Dull blade
Excessive paraffin
Tissue varying in consistency
Trim block edges until parallel to each other
Correct block edge parallel to knife
Sharpen/ Replace the blade
Trim the excess
Re – orient the block
Thick &
Thin
Sections
Paraffin too soft for tissue
Insufficient clearance angle
Faulty microtome mechanisms
Blade or block loose in holders
Cool block with ice / re-embed in wax with higher
melting point
Increase clearance angle
Lubricate microtome
Tighten holders

32. Problems faced
Problems reasons Remedies
Sections not
forming ribbons
Paraffin too hard for sectioning
Debris on knife
Incorrect clearance angle
Re-embed in lower melting point
paraffin
Clean with xylene
Keep optimal clearance angle
Sections attach to
block on return
stroke
Insufficient clearance angle
Edge of the blade/Block with
debris
Static electricity on the ribbon
Increase clearance angle
Clean knife with xylene
Trim edges of the block
Place static guards or dryer sheets
Incomplete section Improper impregnation of tissue
with paraffin
Incorrect embedding
Superficially cut sections
Reprocess the block
Re embed the tissue
Reface the block or cut deeper

33. Problems faced
Problems Reason Remedy
Excessive compression Dull blade
Soft paraffin
Sharpen/ Replace
Cold block face
Sections expand or
disintegrate on water bath
Improper impregnation of
tissue
High temperature of water
Re process
Reduce the temperature
Sections roll into coil Dull blade
Rake angle too small
Thick sections
Sharpen or replace
Reduce blade tilt
Reduce thickness of section

34. Microtomy requirements for good
histological sections
• High quality sharp blades
• Optimize knife tilt angle for each microtome & blade type
• Trim blocks carefully
• Avoid freezing damage to tissue block
• Use cold blocks
• Cut sections slowly/ gently with a uniform, slow rotation

35. References
• Bancroft’s theory and Practice of histological techniques
• Histopathology techniques & its management by Ramadas Nayak
• Basic & Advanced laboratory techniques in Histopathology &
cytology by Pranab Dey