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Zápatí prezentace
1
GENERAL EMBRYOLOGY 2
•Folding of the embryo – 4th week of development
•Development of extraembryonic structures – extraembryonic mesoderm, extraembryonic coelom, yolk
sac, fetal membranes: amnion and chorion.
•Development of the placenta. Anomalies of the placenta and umbilical cord.
•
•Multiple pregnancy – arrangement of fetal membranes.
•The length of pregnancy, calculation of delivery date.
•Fetus position in the uterus – situs, positio, praesentatio, and habitus. The length and weight of
fetus during i.u. development. The rule of Haase.
•Mature and full-term fetus, marks of mature fetus.

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Zápatí prezentace
2
4th week – folding of the embryo (flexion)
Differentiation of intraembryonic mesoderm
3rd week
4th week
neural tube
somites
paraxial
intermediate
lateral
notochord
aorta
body of embryo
primitive gut
aorta
sclerotome (base of vertebral arch)
sclerotome (base of corpus vertebrae)
dermatome, myotome

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Mesoderm:
• paraxial mesoderm – thickened region of mesoderm along neural tube
• intermediate mesoderm (nephrotome) – in between paraxial and lateral mesoderm
• lateral mesoderm – keeps sheet-like structure
intermediate
lateral
paraxial
aorta dorsalis

amniotic cavity
intercellular spaces
in lateral plate mesoderm
intermediate mesoderm
(nephrotome)
neural tube
intraembryonic coelom
somite
Mesoderm

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4
Differentiation of intraembryonic mesoderm
– paraaxial (somites)
Somite
→ Dermatome, Myotome, Sclerotome
Sefton EM, 2019
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6449175/

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Zápatí prezentace
5
Differentiation of intraembryonic mesoderm
– intermediate and lateral
Intermediate mesoderm
→ urinary system (kidney, ureter),  genital system (gonads, ducts, accessory glands)
Sefton EM, 2019
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6449175/
Lateral mesoderm (parietal and visceral layer)
→ dermis, hypodermis of ventral body parts, connective tissue and muscle of viscera,
serous membranes, blood and lymphatic vessels, spleen

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Amniotic cavity
Neural plate
Septum transversum
Connecting stalk
Allantois
Nephrotom
Intraembryonic
coelom
Pericardial
cavity
Yolk sac
Paraxial
mesoderm
Embryonic
somatopleura
Embryonic
splanchnopleura
section plane
section plane
Umbilical
vein
incorporation
of yolk sac into
primitive gut
Anterior and posterior neuroporus
Oropharyngeal
membrane
Neural
tube
Ectoderm
Cloacal
membrane
    Neural tube
Somite
Dorsal
aortae
Communication between
extra and intraembryonic
coelom
Primitive
umbilical cord
Primary
brain
vesicles
Foregut
Midgut
Hindgut
Cranial (head) fold
Caudal (tail) fold
Yolk sac
   Midgut
Lateral folds
Ductus
omphalomesentericus
Yolk sac
EMBRYO FOLDING
Moore et al., Before we are born, 2013, 8th ed.
Intraembryonic coelom – horseshoe shape
Heart primordium

Flexe zárodku

parietal layer =
extraembryonic somatopleura
+ trophoblast → chorion
+ amniotic ectoderm → amnion
visceral layer =
extraembryonic splanchnopleura
+ extraembryonic endoderm → yolk sac
extraembryonic coelom
= chorionic cavity
Extraembryonic mesoderm
chorionic villi
•primary – cytotrophoblastic buds
(day 10) covered with syncytiotrophoblast
•secondary - with extraembryonic mesoderm (days 12-13)
•tertiary – vascularized extraembryonic mesoderm (days 17-18)
yolk sac

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Yolk sac, amniotic sac, fetal membranes - amnion, chorion
chorion and
secondary chorionic villi
neural tube
extraembryonic splanchnopleura
connecting
stalk
extraembryonic somatopleura
extraembryonic coelom
(chorionic cavity)
primary chorionic villi
umbilical
cord

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Development of fetal membranes
chorionic villi
chorion
frondosum
primitive gut
neural tube
connecting stalk
amniotic cavity
chorionic cavity
chorion
laeve
Different growth of chorionic villi toward decidua basalis (partially decidua marginalis) and
toward decidua capsularis causes division of chorion into parts:
CHORION FRONDOSUM (toward decidua basalis
– with villi) and CHORION LAEVE (smooth, without villi)

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GROWTH OF AMNIOTIC AND CHORIONIC CAVITY
CHORION = extraembryonic mesoderm + cytotrophoblast + syncytiotrophoblast
AMNION = extraembryonic mesoderm + amniotic ectoderm
decidua basalis
4 weeks embryo
8 weeks embryo
Chorionic cavity
Amniotic
cavity
chorion frondosum
chorion frondosum
decidua
•basalis
•capsularis
•marginalis
•parietalis

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COMPARTMENTS OF PLACENTA:
c PARS FETALIS PLACENTAE – chorionic plate + chorionic
villi, intervillous space
c PARS MATERNA PLACENTAE = zona functionalis deciduae
basalis

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•discoidalis
•olliformis
•hemochorialis
placenta membrane separations - amnion and chorion membranes
Human placenta
donošená placenta
maternal surface
fetal surface
 15-25 cm
width 2-3 cm
weight 500 g
15-20 cotyledons
Full-term placenta

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POSITION OF PLACENTA
            IN UTERUS
lateral
wall
uterine
fundus
ventral/dorsal
wall
normal
anomaly

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Anomalies of chorionic villi (1 : 100 pregnancies)
•mola hydatidosa
•chorionepitheliom
Anomalies in location:
•placenta praevia (causes bleeding in week 28)
•absolute indication to CS
•
•
•placenta accreta (attached to myometrium)
•placenta increta (grown into myometrium)
•placenta percreta (grown through myometrium)
Anomalies of placenta

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Anomalies of shape of placenta


1c-3 HP_img6-16-23
Funiculus umbilicalis (HE, HES, AZAN)
fu-AZAN-01
magn:2,5
magn:2.5
from APERIO
fu-cor-01
vein
artery
artery
•50 – 60 cm long
•1,5 – 2 cm wide
•amniotic ectoderm on the surface
•jelly-like connective tissue with umbilical vessels
ductus allantoideus

-short ( 40 cm)
-long ( 60 cm)
(danger of strangulation or formation of true knots)
- true and false knots
-
-absence of 1 umbilical artery (hypotrophic fetus)
True knot
False knot
Anomalies of umbilical cord

1
2
3
Umbilical cord – placenta insertion

1– insertio centralis
2– insertio marginalis
3– insertio velamentosa
chorion laeve

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Multiple pregnancy
twins 1:100
triplets 1:1002
quadruplets 1:1003
amniotic cavities
chorionic cavities

DIZYGOTIC TWINS
•2 spermatozoa fertilize
2 oocytes
•each embryo develops separately
(has its own amnion,
chorion, and placenta)
•twins can be of different sexes
•resemblance of twins as between siblings of different age
Dizygotic
separate amnion, chorion, placenta

MONOZYGOTIC TWINS
•1 spermatozoon fertilizes 1 oocyte
•splitting of embryo occurs during the further development
•arrangement of fetal membranes depends on stage on which splitting occurs
•twins are always genetically identical and of the same sexes
34%  65%
1%
dizygotic
monozygotic
TWINS

MONOZYGOTIC separated
on stage of 2 blastomeres
•each of 2 blastomeres creates 1 embryo
•2 blastocysts are formed
•they implantate separately
•fetal membranes are as in dizygotic twins: separate amnion and chorion (diamniotic,dichorial), and
own placenta
TWINS
dizygotic
monozygotic
separate amnion, chorion, placenta

MONOZYGOTIC separated
on stage of blastocyst
•embryoblast divides into 2 cell clusters before creation of germ disc
•trophoblast does not separate, remains common
•fetal membranes: separate amnion (diamniotic), common chorion (monochorial) and common placenta
•the most frequent (65 %)
TWINS
dizygotic
monozygotic
separate amnion,
common chorion,
common placenta

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MONOZYGOTIC separated on stage of bilaminar germ disc
•creation of 2 primitive streaks
•fetal membranes are common – amnion, chorion, placenta (monochorial, monoamniotic)
•conjoined „Siamese“ twins develop in case of incomplete separation
TWINS
dizygotic
monozygotic
common amnion, chorion, placenta

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38 týdnů = 266 dnů
Date of the 1st day of the last menstruation + 9 calendar months + 7 days
Length of pregnancy
preembryo
embryo
fetus
Calculation of the expected date of delivery:
Fertilization
CONCEPTIONAL AGE
38 weeks = 266 days
week 0 3
8
38
0
40
1st day of last
MENSTRUAL  AGE
40 weeks = 280 days
menstruation
= 10 lunar months

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Rule of Haase
determine the age of fetus according its length
• 3.
• 4.
• 5.
• 6.
• 7.
• 8.
• 9.
• 10.
32
42
52
6x5 (l.m. x 5)
(the second power of l.m.)
= 9 cm
= 16 cm
= 25 cm
= 30 cm
= 35 cm
= 40 cm
= 45 cm
= 50 cm
*CRL = crown-rump length
AGE
(lunar month)
CRL*
(cm)
1st month - 6-7 mm
2nd month – 2.5 cm

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Fetal position in utero
During fetal development, fetus is placed in amniotic sac, which is filled with amniotic fluid. The
space of this sac decreases due to the growth of fetus. Therefore, fetus takes up the smallest
possible volume, especially in the 3rd trimester.
Four characters of fetus arrangement in uterus are followed up and determined before delivery:
•Situs
•Positio
•Praesentatio
•Habitus

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Situs
relation: long axis of fetus body – long axis of uterus
•longitudinal situs (parallel axes) - 99%
by head (caudally) or by pelvis
•transversal situs
(perpendicular axes) - 1%
•oblique situs - unstable, moves into longitudinal or transversal situs

Positio
relation: back (head) of fetus – uterine margin
Second  ordinary
to the right, dorsally
First less ordinary
to the left, dorsally
Second less ordinary
to the right, ventrally
First ordinary
to the left, ventrally
1st
2nd

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Praesentatio
relation: part of fetal body – aditus pelvis
•vertex (most frequent)
•forehead, face, occiput
(1 %)
•pelvic end and feet
•trunk, shoulder

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Habitus
relation: parts of fetal body to one another
•regular = flexion of head, chin on chest, limbs flexed in all joints, upper limbs crossed in front
of the chest, lower limbs pressed to abdomen, fetus takes up the smallest possible volume
•irregular = each other

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Physiological fetus position in uterus
•longitudinal situs by
head
•first ordinary position
•praesentatio by head (vertex)
•regular habitus

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Marks of full-term fetus
Main characters
•length (50-51 cm)
• weight (3,000-3,500 g)
•diameters of the head in norm
•♂ testes are descended in scrotum
♀ labia majora cover labia minora
Auxiliary characters
•fetus is eutrophic, subcutaneous fat is well developed
•skin – rests of lanugo on shoulders and back only
•eyelashes, brow, hair (several cm) are developed,
nails overlap free end of fingers
•skull bones are hard, major and minor fontanelles are palpable and separated from each other
•newborn cries and moves

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Mature and full-term fetus
•Full-term fetus – relates to the length of pregnancy (menstrual age):
-preterm (to 37th week)
-full-term (38 – 40 weeks)
-after term (more than 42 weeks)
-
•Mature fetus – relates to level of development:
-mature
- immature
•Level of nutrition
•hypotrophic
•eutrophic (weight 3,000 – 3,500 g, length 50 - 51 cm)
•hypertrophic

Adobe Systems
Zápatí prezentace
35
GENERAL EMBRYOLOGY 2
̶Set of embryological schemes II
̶Atlas of Cytology and Embryology – pages 76 – 81
̶
̶Discussion
̶3 embryological schemes
̶
̶
̶