Practical training
in Histology and Embryology
Organization issues
• Beginning - strictly on time
• Change your shoes - you will not be allowed to enter the hall w/o
indoor shoes
• Lockers – jackets, coats, bags etc.
• Cell phone – switched off or in silent mode
• Microscopic hall = laboratory
– eating, drinking, smoking not allowed
– smoking strictly forbidden anywhere in LF
– students have to follow the instructions
– academic misconducts or inappropriate behavior result in excluding
from the lesson or course
• Follow safety rules
• You have dedicated working place
• You are responsible for microscope, slide set, EM atlas
• Practical lesson
 Introduction; the images free available through MedAtlas
 your individual work = study of the slides, schematic but precise drawing of
tissue architecture, careful description. You make your own „study atlas“
 students come prepared for practices - schedules and syllables – pin-boards or
dpt. webpage
 your knowledge is verified during semester
 break – 10 minutes
• Attendance
 100% attendance
 substitution only in exceptional cases, after permissions from both the teacher of
your group and the lesson where you plan to substitute
 sign in to the list
 make a protocol, let it check and signed by the lecturer
Registration of substitution:
Datum Jméno Ročník Skupina Č. praktika Č. místa Vyučující - podpis
Date Name Year Group Nr. of practice Nr. of place Teacher- signature
• Protocols
 you have to make paper protocols (no tablets, laptops)
 A4 size, blank, without lines, according to the template (can be downloaded
from www.med.muni.cz/histology - Education)
 (color)pencil handdrawings (no pen)
 complete set of signed protocols is required for getting the credits
 the quality of the protocol is approved by your teacher’s signature at the end
of practical lesson
 incomplete or low-quality protocols cannot be approved and you have to
substitute the respective practical lesson
• Testing your knowledge
 every student is examined 4 per semester
 testing the knowledge of structures of the previous practical lesson, including the
theory (their English and Latin names, functions, development and biological
context) AND the theory for the curent practical lesson
 short written test with images or schemes, results: „Passed“ or „Not passed“
 all images and schemes are made public (MedAtlas, IS)
 you have to successfully pass all 4 tests
 if you fail in partial test, you can repeat it once per semester (resit test)
 failing in the partial tests result in the overal Credit test at the end of semester
Test 1 P P P P N
2 P P N → P (N) N → P (N) N
3 P N→ P (N) P N N
4 P P N N N
Credit given Credit test Semester must be repeated
• Credits
 100% attendance
 complete set of signed protocols from all lessons
 passed four tests
• End of practical lesson:
 the practice is closed by the lecturer
 you are allowed to leave your working place only after checking the microscope
and slides
 if you leave before the check you may be responsible for any damages/losses
recognized later
http://www.med.muni.cz/histology
Department of Histology
and Embryology
Faculty of Medicine MU
RECOMMENDED LITERATURE
Čech, S. a D. Horký. Přehled obecné histologie. 1. vyd. Brno: Masarykova univerzita, 2005. 140 s. ISBN 8021038543.
Horký, D. a S. Čech. Mikroskopická anatomie. 2. nezm. vyd. Brno: Masarykova univerzita, 2005. 353 s. ISBN 802103775X.
Čech, S., D. Horký a M. Sedláčková. Přehled embryologie člověka. 1. vyd. Brno: Masarykova univerzita, 2011. 187 s. ISBN 978-80-210-5414-1.
Mescher, A.L. Junqueira's basic histology :text and atlas. 13th ed. New York: McGraw-Hill Medical, 2013. xi, 544. ISBN 9781259072321.
Moore, K.L., T.V.N. Persaud a M.G. Torchia. The developing human :clinically oriented embryology. 9th ed. Philadelphia, PA:
Saunders/Elsevier, 2013. xix, 540. ISBN 9781437720020.
Vacek, Z. Embryologie :učebnice pro studenty lékařství a oborů všeobecná sestra a porodní aistentka. 1. vyd. Praha: Grada, 2006. 255 s.
ISBN 9788024712673.
Sadler, T.W. Langmanova lékařská embryologie. 1. české vyd. Praha: Grada, 2011. xviii, 414. ISBN 9788024726403.
Kapeller, K. a V. Pospíšilová. Embryológia človeka: učebnica pre lekárske fakulty. Martin: Osveta, 2001. 370 s. ISBN 80-8063-072-0.
Lüllmann-Rauch, R. Histologie. Translated by Radomír Čihák. 1. české vyd. Praha: Grada, 2012. xx, 556. ISBN 9788024737294.
Ovalle, W.K., P.C. Nahirney a F.H. Netter. Netter's essential histology. 2nd ed. Philadelphia, PA: Elsevier/Saunders, 2013. xv, 517.
ISBN 9781455706310.
Young, B. Wheater's functional histology :a text and colour atlas. 5th ed. [Oxford]: Churchill Livingstone, 2006. x, 437. ISBN 044306850X.
Sadler, T.W. a J. Langman. Langman's medical embryology. Illustrated by Jill Leland. 11th ed. Baltimore, Md.: Lippincott William & Wilkins,
2010. ix, 385. ISBN 9781605476568.
Lowe, J.S. a P.G. Anderson. Stevens and Lowe´s Human Histology. 4th. : Elsevier, 2015. ISBN 978-0-7234-3502-0.
Lectures
Protocols
http://www.med.muni.cz/histology
HISTOLOGY
• structure and ultrastructure of normal cells and tissues,
• cytology and general histology
• special histology = microscopic anatomy of individual organs
• relevance: oncology, surgery, hematology, pathology, forensic,…
EMBRYOLOGY
– prenatal (intra uterine) development
• General embryology (until 2nd month – EMBRYO )
gametogenesis and early embryonic development
• Special embryology (since 3rd month to birth – FETUS )
organogenesis
• Teratology – defects in organ development, malformations, anomalies; prenatal
screening – ultrasonography, amniocentesis, genetic and karyotype screening
• Relevance: gynecology and obstetrics, pediatrics, assisted reproduction
Histology and
ulstrastructural
architecture
Cell biology
Molecular
biology
Physiology
Biochemistry
Gene, cell and
tissue
engineering
Quantitative analyses
of cells and tissues
- Genomics
- Transcriptomics
- Proteomics
- Metabolomics
- …
Understaning of the whole
system
- Personalized medicine
- Regenerative medicne
- Assisted reproduction
- Gene therapy
- Cancer therapy
- Biomedical research
Histology cannot be put out of the biological and functional context
Histology
• Resolution of naked eye – 0,1 - 0,2 mm
• Resolution of light microscopy – 0,2 m
• Resolution of electron microscopy –1-2 nm
Tissue processing for the light microscopy (LM)
(making of permanent preparations – slides)
• SAMPLING (obtaining of material – cells, tissue pieces)
• FIXATION of samples (tissue blocks)
• RINSING (washing) of samples
• EMBEDDING of samples - embedded blocks into PARAFFIN
• CUTTING of blocks - sections
• AFFIXING of sections
• STAINING of sections
• MOUNTING of sections
SAMPLING
• A small piece of organ (tissue) is sampled and quickly put into the fixative
medium.
• Biopsy during surgical dissection of organs in living organism
= excision
= puncture (liver or kidney parenchyma, bone marrow)
= curettage (uterine endometrium, adenoid vegetation)
• Necropsy from dead individual (sections); in experiments laboratory animals are
used and tissue have to be sampled as soon as possible after the break of blood
circulation
• The specimens shouldn't be more than 5 – 10 mm3 thick and fixation should
follow immediately.
FIXATION
• Definition: denaturation and stabilization of cell proteins with minimum artifacts
• The reason of fixation: freshly removed tissues are chemically unstable – dry, shrink,
undergo hypoxia, autolysis and bacteriological changes
• To stop or prevent these changes and preserve the structure tissue samples have to be
fixed. During the fixation, all tissue proteins are converted into inactive denaturized (stable)
form.
• 3 main requirements on fixatives:
- good preservation of structure
- quick penetration into tissue block
- no negative effects on tissue staining
• Fixatives: solutions of different chemicals
- organic fixatives – ALDEHYDES – formaldehyde (most frequently used for LM)
– glutaraldehyde (used for EM)
– ALCOHOLS – 96 – 100 % (absolute) ethylalcohol
– ORGANIC ACIDS – glacial acetic acid, picric acid,
trichloracetic acid
- inorganic fixatives – INORGANIC ACIDS – chromic acid, osmium tetraoxide (OsO4)
– SALTS OF HEAVY METALS – mercuric chloride HgCl2
- compound fixatives – mixtures (two or more chemical components to offset
undesirable effects fo indiviual (simple) fixatives.
FLEMMING´s fluid – with OsO4
ZENKER´s and HELLY´s fluid, SUSA fluid – with HgCl2
BOUIN´s fluid – with picric acid
CARNOY´s fluid – with alcohol
Fixation is carried out at the room temperature, the time varies between 12 – 24 hours,
specimen must be overlayed by 20 – 50 times fixative volume:
Ratio of tissue block volume to fixative volume 1 cm3 : 20 – 50 cm3
RINSING and EMBEDDING
• All samples should be washed to remove the excess of fixative;
the choice of rinsing medium is determined by type of fixative:
running tap-water or 70-80% ethanol
• Relevance of embedding: tissues and organs are brittle and
unequal in density, they must be hardened before cutting
Embedding media
 water soluble – gelatine, celodal, water soluble waxes
 anhydrous – paraffin, celoidin
EMBEDDING into PARAFFIN
• dehydration – to remove water from fixed samples by
ascending series of ethanol is used (50%, 70%, 90%, 96%. each
step - 2 – 6 hours
• clearing – the ethanol must be replaced with organic solvatant
that dissolves paraffin – benzene or xylene
• infiltration – melted paraffin wax (56°C) is used; 3 x 6 hours.
• casting (blocking out) – moulds (plastic, paper or metal
chambers) are used for embedding.
- The moulds are filled with melted paraffin, tissue samples are then placed
inside and immediately immersed in cold water to cool paraffin quickly
down.
- These paraffin blocks are ready for trimming
Automated device for tissue dehydration
Leica TP 1020
Paper chambers
- metal
CUTTING
• Microtome – a machine with automatic regulation of section
thickness: 5 – 10 μm is optimum.
sliding microtome – block is fixed
in holder, knife or razor moves
horizontally
rotary microtome – knife is fixed,
block holder moves vertically
Rotary microtome
Sliding microtome
Freezing microtome (cryostat)
= rotary microtome housed in freezing box
(– 60º C)
Cutting of frozen tissue without the embedding
1 2 3
4 5
6 7
sampling fixation fixation
cutting cutting
section affixing section affixing
paraffin embedding 4
AFFIXING
• Mixture of glycerin and egg albumin or
gelatin
• Section are transferred from microtome
razor or knife on the level of warm
water (45º C), where they are stretched;
then they are put on slides coated with
adhesive mixture; excess of water is
drained and slides are put in incubator
(thermostat, 37º C) over night to affixing
of sections.
Stretching of sections on warm water
Stretching on a warm plate
STAINING
• different cell or tissue structures are not apparent without
staining.
• cellular structures exhibit different affinity to staining dyes
alkaline dyes (basic or nuclear) – react with anionic groups of cell
and tissue components
basophilia – basophilic structures in the cell
acid dyes (cytoplasmic) – react with cationic groups
acidophilia – acidophilic structures in the cell
neutrophilia – no reaction
Staining methods:
routine – HE, AZAN
(demonstrate all components of tissue)
special
visualizes only special structures
impregnation
by silver salt for detection
of nerve or reticular fibers
HE – the most frequent used method
Lipid droplets
detected by oil red
ROUTINE STAINING with HEMATOXYLINE –
EOSIN (HE)
Hematoxyline – basic (nuclear) dye
Eosin – acid (cytoplasmic) dye
• Staining procedure:
• paraffin must be removed (dissolved) by xylene
• sections are rehydrated in descending series of ethanol (100% 96% 80%)
• staining with hematoxyline
• differentiation in acid ethanol and water (excess of dye is removed)
• staining with eosin
• rinsing in water (excess of dye is removed)
• dehydration in graded ethanol series (80% 96% 100%)
• clearing in xylene
Xylen I XylenII 100% 96% H2O hematoxyline acid
ethanol ethanol ethanol
Xylen IV xylen III 100% 96% H2O eosin H2O
ethanol ethanol
HEMATOXYLINE – EOSIN (HE)
Deparaffination Rehydration Washing Staining Differentiation
Clearing Dehydration Washing Staining Washing
Staining results:
• HE = Hematoxyline – Eosin
nuclei – bright clear blue or dark violet
cytoplasm and collagen fibers – pink
erythrocytes, muscle tissue – red
• HES = Hematoxyline – Eosin – Safron
connective tissue – yellow
• AZAN = AZocarmin – ANiline blue – orange G
nuclei – red
erythrocytes – orange
muscle – red
collagen fibers – blue
cuvette
flask
slides holder
(basket)
Staining tools:
Automatic slide stainer
staining set of boxes with media
MOUNTING
• Finally, preparates are closed with coverslip (coverglass) to form a permanent
preparate. Small amount of mounting medium must be placed between stained
section and the coverslip.
• Mounting media: soluble in xylene – canada balsam
soluble in water – glycerin-gelatine, arabic gum
Permanent histological slides for study in the light microscope
Hematoxyline and eosin (HE)
Hematoxyline and eosin (HE)
cell cytoplasm
cell nuclei
collagenous
connective tissue
Hematoxyline and eosin (HE)
basophilic cytoplasm
of glandular cells
(contains ribosomes
with RNA)
acidophilic cytoplasm
of epithelial cells
Hematoxyline, eosin and saffron (HES)
cartillage
Collagenous fibers
of connective tissue
are yellow after staining
with saffron
Azocarmine and aniline blue (AZAN)
Kidney – collagen connective tissue
Impregnation of tissue with silver
Lien - reticular fibers Cerebellum – nerve fibers
Iron hematoxyline
Skeletal muscle cells (fibers)
Green trichrome
Histochemistry and Immunohistochemistry
• Relevance:
various chemical compounds detected „in situ“ (proteins, AA, NA,
saccharides, lipids, enzymes, pigments, inorganic substances – Fe,
Ca, Zn)
Various epitopes detected by immunotechniques
Antigen
Primary Ab specific
against epitope of the
particular antigen
Secondary Ab specific
against primary Ab
Enzyme conjugated
with secondary Ab -
visualization
Actin (cytoskeleton)
DAPI (nucleus)
Microtubules (cytoskeleton)
KI-67
Tissue processing for the EM
• pH of all solutions (media) must be buffered on 7.2 – 7.4
Cacodylate or phosphate buffer is frequently used.
• absolutely dustfree environment
• solutions (media) have to be precise (artifacts)
Tissue processing for the EM
• SAMPLING – immediatelly after arresting of blood circulation, tissue
block sized no more than 1mm3
• FIXATION – glutaraldehyde (binds amine groups) + OsO4 (binds lipids)
are used as double fixation
• RINSING – distilled water
• DEHYDRATION - ethanol
• EMBEDDING – gelatin capsule or plastic forms are filled with some
medium (which can be polymerized from liquid to solid form) and
pieces of fixed tissue are placed into this medium. Epoxyd resins
(Epon, Durcupan, Araldite) are usually used as in water insoluble
media.
• CUTTING – ultrathin sections (in ultramicrotomes)
• CONTRASTING ≈ staining
Embedding tools:
gelatin (1) or plastic (2) capsules
capsule holder (3)
embedding plates
(4, 5)
Embedded blocks
prepared for cutting
1 2
3
4,5
By trimming, using ultramicrotome, an excess of
hard medium is removed and pyramide with
minimal cut surface (0.1 mm2) is prepared.
Minimum of tissue (black) is in the top of pyramid
Cutting
Cutting
Ultrathin sections (70 – 100 nm) -
ultramicrotomes.
Glass or diamond (b) knives with water
reservoir are used
Sections slide flow on water in small
container attached to the knive
Supporting grids
Ultramicrotom
knives:
glass
diamond
CONTRASTING (=STAINING)
• principle of differentiation of structures – different
dispersion of beam of electrons depending on atomic
weight of elements,
„electron dyes“ are thus mixtures of heavy metals:
uranylacetate or lead citrate
stain droplet with floating grid
placed section-side down on the
droplet
Differences between LM and EM
LM EM
Sampling  1 cm3
minutes
 1 mm3
seconds
Fixation formaldehyde
12 – 24 hours
glutaraldehyde
1 – 3 hours
Embedding paraffin epoxid resins (Durcupan)
Cutting
Thickness of sections
microtome
5 – 10 m
Ultramicrotomes
50 – 100 nm
Staining (LM)
contrasting (EM)
dyes
(hematoxyline – eosin)
heavy metals
(uranylacetate,lead citrate)
Mounting (only LM) ---
Result histological slide (preparate) photograph of ultrathin section
Visit us at:
http://www.med.muni.cz/histology
Thank you for attention