Fetal Physiology By Abdul Qahar
AbdulQahar045
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31 slides
Feb 12, 2014
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About This Presentation
Fetal physiology
Slide Content
Fetal Circulation
Nutrients for growth
and development are
delivered from the
umbilical vein in the
umbilical cord →
placenta fetal heart
→
Nutrients for growth
and development are
delivered from the
umbilical vein in the
umbilical cord →
placenta fetal heart
→
Oxygenated blood from mother
↓
(via umbilical vein)
Liver
Portal sinus Ductus venosus
↓
Inferior vena cava (mixes with
deoxygenated blood)
↓
Right atrium
↓
(via umbilical vein)
Liver
Portal sinus Ductus venosus
↓
Inferior vena cava (mixes with
deoxygenated blood)
↓
Right atrium
Right atrium
↓
(through Foramen ovale)
Left atrium
↓
Left ventricle
↓
(through Aorta)
Heart and Brain
↓
(through Foramen ovale)
Left atrium
↓
Left ventricle
↓
(through Aorta)
Heart and Brain
Deoxygenated blood
from lower half of
fetal body
↓
Inferior vena cava
Right atrium
↓
Right ventricle
Deoxygenated blood
flowing through
Superior vena cava
from lower half of
fetal body
↓
Inferior vena cava
Right atrium
↓
Right ventricle
Deoxygenated blood
flowing through
Superior vena cava
Right ventricle
↓
Pulmonary artery
↓
(through Ductus arteriosus)
Descending aorta
↓
Hypogastric arteries
↓
Umbilical arteries
↓
Placenta
↓
Pulmonary artery
↓
(through Ductus arteriosus)
Descending aorta
↓
Hypogastric arteries
↓
Umbilical arteries
↓
Placenta
1
st
difference:
Presence of shunts which allow oxygenated blood
to bypass the right ventricle and pulmonary
circulation, flow directly to the left ventricle, and
for the aorta to supply the heart and brain.
st
difference:
Presence of shunts which allow oxygenated blood
to bypass the right ventricle and pulmonary
circulation, flow directly to the left ventricle, and
for the aorta to supply the heart and brain.
3 shunts:
- Ductus venosus
- Foramen ovale
- Ductus arteriosus
- Ductus venosus
- Foramen ovale
- Ductus arteriosus
2
nd
difference:
Ventricles of the fetal heart work in parallel
compared to the adult heart which works in
sequence.
nd
difference:
Ventricles of the fetal heart work in parallel
compared to the adult heart which works in
sequence.
Fetal cardiac output per unit weight is 3 times
higher than that of an adult at rest.
This compensated for low O
2
content of fetal
blood.
Is accomplished by heart rate and peripheral
↑ ↓
resistance
higher than that of an adult at rest.
This compensated for low O
2
content of fetal
blood.
Is accomplished by heart rate and peripheral
↑ ↓
resistance
Clamped cord + fetal lung expansion =
constricting and collapsing of umbilical
vessels, ductus arteriosus, foramen ovale,
ductus venosus
Fetal circulation changes to that of an adult
constricting and collapsing of umbilical
vessels, ductus arteriosus, foramen ovale,
ductus venosus
Fetal circulation changes to that of an adult
Shunt Functional
closure
Anatomical
closure
Remnant
Ductus
arteriosus
10 – 96 hrs after
birth
2 – 3 wks after
birth
Ligamentum
arteriosum
Formamen
ovale
Within several
mins after birth
One year after
birth
Fossa ovalis
Ductus
venosus
Within several
mins after birth
3 – 7 days
after birth
Ligamentum
venosum
Umbilical arteries → Umbilical ligaments
Umbilical vein → Ligamentum teres
closure
Anatomical
closure
Remnant
Ductus
arteriosus
10 – 96 hrs after
birth
2 – 3 wks after
birth
Ligamentum
arteriosum
Formamen
ovale
Within several
mins after birth
One year after
birth
Fossa ovalis
Ductus
venosus
Within several
mins after birth
3 – 7 days
after birth
Ligamentum
venosum
Umbilical arteries → Umbilical ligaments
Umbilical vein → Ligamentum teres
Maintenance of ductus arteriosus depends
on:
- difference in blood pressure bet. Pulmonary
artery and aorta
- difference in O
2
tension of blood passing
through ductus. p
↑
O
2
= stops flow. Mediated
through prostaglandins.
on:
- difference in blood pressure bet. Pulmonary
artery and aorta
- difference in O
2
tension of blood passing
through ductus. p
↑
O
2
= stops flow. Mediated
through prostaglandins.
Hematopoiesis
First seen in the yolk sac during embryonic period
(mesoblastic period)
Liver takes over up to bear term (hepatic period)
Bone marrow: starts hematopoietic function at
around 4 months fetal age; major site of blood
formation in adults (myeloid period)
First seen in the yolk sac during embryonic period
(mesoblastic period)
Liver takes over up to bear term (hepatic period)
Bone marrow: starts hematopoietic function at
around 4 months fetal age; major site of blood
formation in adults (myeloid period)
Hematopoiesis
Erythrocytes progress from nulceated to non-
nucleated
Blood vol. and Hgb concentration increase
progressively
Midpregnancy: Hgb 15 gms/dl
Term: 18 gms/dl
Erythrocytes progress from nulceated to non-
nucleated
Blood vol. and Hgb concentration increase
progressively
Midpregnancy: Hgb 15 gms/dl
Term: 18 gms/dl
Hematopoiesis
Fetal erythrocytes: 2/3 that of adult’s (due to
large volume and more easily deformable)
During states of fetal anemia: fetal liver
synthesizes erythropoietin and excretes it into
the amniotic fluid. (for erythropoiesis in utero)
Fetal erythrocytes: 2/3 that of adult’s (due to
large volume and more easily deformable)
During states of fetal anemia: fetal liver
synthesizes erythropoietin and excretes it into
the amniotic fluid. (for erythropoiesis in utero)
Fetal Blood Volume
Average volume of 80 ml/kg body wt. right after
cord clamping in normal term infants
Placenta contains 45 ml/kg body weight
Fetoplacental blood volume at term is approx.
125 ml/kg of fetus
Average volume of 80 ml/kg body wt. right after
cord clamping in normal term infants
Placenta contains 45 ml/kg body weight
Fetoplacental blood volume at term is approx.
125 ml/kg of fetus
Type Description Chains
Hemoglobin FFetal Hgb or alkaline-
resistant Hgb
2 alpha chains,
2 gamma chains
Hemoglobin AAdult Hgb. Formed starting
at 32-34 wks gestation and
results from methylation of
gamma globin chains
2 alpha chains,
2 beta chains
Hemoglobin
A
2
Present in mature fetus in
small amounts that
increase after birth
2 alpha chains,
2 delta chains
Fetal Hemoglobin
Hemoglobin FFetal Hgb or alkaline-
resistant Hgb
2 alpha chains,
2 gamma chains
Hemoglobin AAdult Hgb. Formed starting
at 32-34 wks gestation and
results from methylation of
gamma globin chains
2 alpha chains,
2 beta chains
Hemoglobin
A
2
Present in mature fetus in
small amounts that
increase after birth
2 alpha chains,
2 delta chains
Fetal Hemoglobin
Fetal Hemoglobin
Fetal erythrocytes that contain mostly Hgb F bind
more O
2
than Hgb A erythrocytes
Hgb A binds more 2-3 BPG more tightly than Hgb
F (this lowers affinity of Hgb for O
2
)
Fetal erythrocytes that contain mostly Hgb F bind
more O
2
than Hgb A erythrocytes
Hgb A binds more 2-3 BPG more tightly than Hgb
F (this lowers affinity of Hgb for O
2
)
Increased O
2
affinity of fetal erythrocytes results
from lower concentartion of 2-3 BPG in the fetus
Affinity of fetal blood for O
2
decreases at higher
temp. (maternal hyperthermia)
2
affinity of fetal erythrocytes results
from lower concentartion of 2-3 BPG in the fetus
Affinity of fetal blood for O
2
decreases at higher
temp. (maternal hyperthermia)
Sufficient development of synaptic functions are
signified by flexion of fetal neck & trunk
If fetus is removed from the uterus during the 10
th
wk, spontaneous movements may be
observed although movements in utero aren’t
felt by the mother until 18-20 wks
signified by flexion of fetal neck & trunk
If fetus is removed from the uterus during the 10
th
wk, spontaneous movements may be
observed although movements in utero aren’t
felt by the mother until 18-20 wks
Gestational
age
Fetal development
10 wks Squinting, opening of mouth, incomplete finger closure, plantar
flexion of toes, swallowing and respiration
12 wks Taste buds evident histologically
16 wks Complete finger closure
24 – 26 wks Ability to suck, hears some sounds
28 wks Eyes sensitive to light, responsive to variations in taste of ingested
substances
age
Fetal development
10 wks Squinting, opening of mouth, incomplete finger closure, plantar
flexion of toes, swallowing and respiration
12 wks Taste buds evident histologically
16 wks Complete finger closure
24 – 26 wks Ability to suck, hears some sounds
28 wks Eyes sensitive to light, responsive to variations in taste of ingested
substances
11 wks gestation peristalsis in small intestine,
→
transporting glucose actively
16 wks gestation able to swallow amniotic fluid,
→
absorb much water from it, and propel
unabsorbed matter to lowe colon
Hydrochloric acid & other digestive enzymes
present in very small amounts
→
transporting glucose actively
16 wks gestation able to swallow amniotic fluid,
→
absorb much water from it, and propel
unabsorbed matter to lowe colon
Hydrochloric acid & other digestive enzymes
present in very small amounts
Term fetuses can swallow 450 ml amniotic fluid in 24
hours
This regulates amniotic fluid volume:
- inhibition of swallowing (esophageal atresia) =
Polyhydramnios
Amniotic fluid contributes little to caloric requirements of
fetus, but contributes essential nutrients: 0.8 gms of
soluble protein is ingested daily by the fetus from
amniotic fluids. Half is alubumin.
hours
This regulates amniotic fluid volume:
- inhibition of swallowing (esophageal atresia) =
Polyhydramnios
Amniotic fluid contributes little to caloric requirements of
fetus, but contributes essential nutrients: 0.8 gms of
soluble protein is ingested daily by the fetus from
amniotic fluids. Half is alubumin.
Meconium passed after birth
Dark greenish black color of meconium caused by bile
pigments (esp. biliverdin)
Meconium passage during labor due to hypoxia
(stimulates smooth muscle of colon to contract)
Dark greenish black color of meconium caused by bile
pigments (esp. biliverdin)
Meconium passage during labor due to hypoxia
(stimulates smooth muscle of colon to contract)
Small bowel obstruction may lead to vomiting in
utero
Fetuses with congenital chloride diarrhea may
have diarrhea in utero. Vomiting and diarrhea in
utero may lead to polyhydramnios and preterm
delivery
utero
Fetuses with congenital chloride diarrhea may
have diarrhea in utero. Vomiting and diarrhea in
utero may lead to polyhydramnios and preterm
delivery
Liver and Pancreas
Fetal liver enzymes reduced in amount compared to
adult
Fetal liver has limited capacity to convert free bilirubin
to conjugated bilirubin
Fetus produces more bilirubin due to shorter life span
of fetal erythrocytes. Small fraction is conjugated and
excreted and oxidized to biliverdin
Much bilirubin is transferred to the placenta and to the
maternal liver for conjugation and excretion
Fetal liver enzymes reduced in amount compared to
adult
Fetal liver has limited capacity to convert free bilirubin
to conjugated bilirubin
Fetus produces more bilirubin due to shorter life span
of fetal erythrocytes. Small fraction is conjugated and
excreted and oxidized to biliverdin
Much bilirubin is transferred to the placenta and to the
maternal liver for conjugation and excretion
Fetal pancreas responds to hyperglycemia
by insulin
↑
Insulin containing granules identified in fetal
pancreas at 9-10 wks. Insulin in fetal plasma
detectable at 12 wks.
by insulin
↑
Insulin containing granules identified in fetal
pancreas at 9-10 wks. Insulin in fetal plasma
detectable at 12 wks.
Insulin levels: in newborns of diabetic mothers
↑
and LGAs (large for gestational age); in infants
↓
who are SGA (small for gestational age)
↑
and LGAs (large for gestational age); in infants
↓
who are SGA (small for gestational age)
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