Development of the Heart and...
Transcript of Development of the Heart and...
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Development of the Heart and
Vasculature
IN THE NAME OF GOD
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Overview vascular system appears (middle of 3rd week)
◦ when the embryo is not able to satisfy its nutrition by diffusion
Heart is the first functional organ
◦ beating rhythmically (22nd day)
◦ pumps blood (24-25days)
single heart tube structure
◦ Myocardium
◦ Endocardium
◦ ECM (cardiac jelly)
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Heart development Cardiac progenitor cells in epiblast immediately lateral to primitive
streak
◦ Cells migration through the cranial third of streak 1st cranial segments of heart (outflow tract)
then more caudal portions right ventricle, left ventricle, and sinus venosus
◦ The cells position rostral to buccopharyngeal membrane and neural folds
◦ Splanchnic mesoderm layer
◦ They induced by underlying pharyngeal endoderm form cardiac myoblasts
Blood islands also appear in this mesoderm vasculogenesis process
Endothelium
Blood cells
◦ horseshoe-shaped region
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Formation of Primitive Heart Tube
Heart Tubes and Dorsal Aorta Lateral folding & Craniocaudal folding Cardiac bifida
Dorsal mesocardium((Transverse pericardial sinus
• three layers Heart
• Endocardium
• Myocardium
• Epicardium (visceral pericardium)
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Cardiac Looping
Heart tube elongate and bend on day 23-28
cephalic portion◦ bends ventrally, caudally, and to the right
caudal portion◦ shifts dorsal, cranial and to the left
Mechanisms of cardiac bending and looping
asymmetric differences in ECM composition
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Heart tube expansions
During 5-10 weeks
sinus venosus
primitive atrium
◦ L & R atrium
atrioventricular junction
◦ atrioventricular canal
primitive ventricle
◦ Left ventricle
bulboventricular sulcus
◦ primitive interventricular foramen
bulbus cordis
◦ proximal third trabeculated part of the right ventricle
◦ midportion (conus cordis) outflow tracts of both ventricles
◦ distal third (truncus arteriosus) roots and proximal portion of the aorta
and pulmonary arteries
aortic sac
Atrioventricular junction
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Abnormalities of Cardiac Looping
Dextrocardia
◦ heart lies on right side of thorax
◦ heart loops to left instead of right
◦ may coincide with Situs inversus complete reversal of asymmetry in all organs
which occurs in 1/7,000 individuals
Heterotaxy
◦ 3 out of 20,000 live births
◦ sidedness is random laterality sequences
predominantly left-sided bilaterally
polysplenia
or right-sided bilaterally
asplenia or hypoplastic spleen
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Development of sinus venosus left horn
middle of 4th week
sinus venosus
◦ right and left sinus horns vitelline (omphalomesenteric) vein
umbilical vein
common cardinal vein
Sinus entrance shifts to right
◦ left-to-right shunts of blood 4-5th week: obliteration of
right umbilical vein
left vitelline vein
10th week: obliteration of left common cardinal vein
remnant of left sinus horn
◦ oblique vein of left atrium
◦ coronary sinus
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Development of sinus venosus right horn
As a result of left-to-right shunts of blood
right sinus horn veins enlarge greatly
incorporated into the right atrium
◦ Form smooth-walled part of right atrium (sinus venarum)
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Development of sinus venosus sinuatrial orifice
right and left venous valves
◦ dorsocranially fusion septum spurium
left venous valve and septum spurium
◦ fuse with developing atrial septum
right venous valve
◦ superior portion disappears entirely (crista teminalis)
◦ inferior portion develops into valve of the inferior vena cava
valve of the coronary sinus
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Further Differentiation of the Atria
Right atrium
primitive right atrium
◦ trabeculated atrial
◦ pectinate muscles
incorporated right sinus horn
◦ smooth-walled (sinus venarum)
Left atrium
primitive left atrium
◦ trabeculated atrial
◦ incorporated pulmonary veins
◦ smooth-walled part of the adult atrium
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Cardiac Septa Formation
(Remodeling and differentiation growth)
major septa formed between 27-37th days
◦ Endocardial cushions
(synthesis and deposition of ECM and cell migration and proliferation) Single or Two growing cushion
atrioventricular and conotruncal regions
atrial septa
ventricular (membranous portion) septa
atrioventricular canals and valves
aortic and pulmonary channels
◦ narrow tissue strip of wall fail to grow
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Septation of Common Atrium
At the end of the 4th week
Septum primum
◦ sickle-shaped crest from roof extend toward endocardial cushions of atrioventricular canal
◦ its opening: ostium primum Occlusion
ostium secundum
Septum secundum
◦ overlap the ostium secundum
◦ its opening: oval foramen
valve of oval foramen
◦ Remnant of septum primum
After birth: oval fossa
◦ lung circulation begins
◦ pressure in left atrium increases
probe patency of oval foramen
◦ In about 20% of cases
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Atrioventricular Canal Septation
At the end of 4th week
Initially atrioventricular canal gives access only to the primitive left Ventricle
◦ bulbo(cono) ventricular flange to left Along base of superior endocardial cushion
superior and inferior atrioventricular endocardial cushions
Near the end of 5th
Two lateral atrioventricular cushions
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Atrioventricular Valves
each atrioventricular orifice surrounded by proliferations of mesenchymal tissue
◦ bloodstream hollows out and thins ventricular surface of these proliferations valves form and remain attached to ventricular wall by muscular cords
papillary muscles
chordae tendineae
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Truncus Arteriosus Septation
During the fifth week
pairs of truncus swellings (cushions)
◦ right superior truncus swelling grows distally and to the left
◦ left inferior truncus swelling grows distally and to the right
growing swelling toward the aortic sac
◦ twist around each other
After complete fusion
◦ aorticopulmonary septum Aortic channel
pulmonary channel
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Conus Cordis Septation
During the fifth week conus cordis swellings (cushions)
◦ right dorsal wall◦ left ventral wall
grow toward each other and distally unite with the truncus septum
the septum divides the conus into◦ Anterolateral (outflow of right ventricle)◦ posteromedial (outflow of left ventricle)
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Ventricles Septation
By the end of 4th week two primitive ventricles begin to expand by◦ continuous growth of myocardium on outside◦ continuous diverticulation and trabeculation on inside
medial walls of expanding ventricles◦ apposed and gradually merge
muscular interventricular septum interventricular foramen
◦ outgrowth of tissue from inferior endocardial cushion◦ membranous part of interventricular septum
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Semilunar Valves
When partitioning of truncus is almost complete
semilunar valves primordia become visible
◦ as small tubercles
Then tubercles hollow out at their upper surface
◦ semilunar valves
neural crest cells contribute to formation of these valves
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Heart Conducting System
Pacemaker node◦ Initial pacemaker
caudal part of left cardiac tube cluster of cells in sinoatrial region, which derived from
right common cardinal vein or right sinus venosus
◦ Later pacemaker sinus venosus
◦ Definitive pacemaker (sinuatrial node)
atrioventricular node and bundle◦ cells in left wall of sinus venosus◦ cells from atrioventricular canal
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Atrial septal defect (ASD) incidence of 6.4/10,000 births
◦ premature closure of oval foramen massive hypertrophy of right atrium and ventricle
underdevelopment of left side of heart
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Ventricular septal defect (VSD)
most common congenital cardiac malformation (12/10,000 births)
often associated with abnormalities in conotruncal partitioning
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Tetralogy of Fallot
most frequently abnormality of conotruncal region (9.6/10,000 births)
unequal division of conus
◦ (a) pulmonary infundibular stenosis
◦ (b) large defect of interventricular septum
◦ (c) overriding aorta arises directly above septal defect
◦ (d) hypertrophy of right ventricle
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Persistent truncus arteriosus
conotruncal ridges fail to fuse and descend toward the ventricles (0.8/10,000 births)
undivided truncus overrides both ventricles
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Transposition of great vessels
conotruncal septum fails normal spiral course and runs straight down (4.8/10,000 births)
◦ aorta originates from right ventricle
◦ pulmonary artery originates from left ventricle
sometimes is associated with a defect in membranous part of the interventricular septum
usually accompanied by an open ductus arteriosus
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Valvular stenosis
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Development of the Vascular system
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Heart-Vasculature connectionsmajor vessels develop at same time as
endocardial tube
Inflow (right and left sinus horns)
◦ 3 paired vessels common cardinal veins
vitelline veins
umbilical veins
Outflow Three pairs of aortic arch arteries and
the paired dorsal aortae that circulate blood to the head and trunk
4th and 5th weeks
At day 22
◦ primitive bilateral symmetric circulatory system
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Vasculature DevelopmentExtraembryonic vasculature
From 17th day
◦ splanchnic mesoderm of yolk sac hemangioblastic aggregates
Primitive hematopoietic stem cells
endothelial precursor cells
By end of 3rd week blood network completely vascularizes yolk sac, connecting stalk, and chorionic villi
Intraembryonic vasculature
On day 18
◦ splanchnic mesoderm of embryonic disc
◦ later in paraxial mesoderm
Vasculogenesis (primary embryonic vasculature formation )
◦ de novo blood vessel formation Endothelial precursors differentiate into endothelial cells
organize into networks of small vessels
Grow and invade other tissues
Angiogenesis
◦ primitive vasculature expansion and remodeling
◦ Budding and sprouting from existing endothelial cords
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HematopoiesisExtraembryonic hematopoiesis
Primitive HSCs of yolk sac (up to 60th day)
◦ exclusively erythropoietic cells primitive erythrocytes
nucleated erythrocytes
containing embryonic hemoglobin
◦ some pluripotent progenitor cells Megakaryocytes
primitive macrophages
intraembryonic hematopoiesis
primitive HSCs colonize some organs
◦ liver, spleen, thymus, bone marrow
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Hematopoiesis, LiverLiver is first organ to be colonized by HSCs
main hematopoietic organ until initiation of bone marrow hematopoiesis near birth◦ two waves of colonization
first beginning about day 23 Primitive HSCs from yolk sac
primitive nucleated erythroblasts
embryonic hemoglobin
Second beginning about day 30 Definitive HSCs from AGM
All hematopoietic cell lineages
both myeloid and lymphoid progenitor cells
enucleated (definitive) erythrocytes
fetal hemoglobin
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Hematopoiesis, Bone marrow
as early as 10.5 weeks
definite HSCs come to colonize bone marrow
◦ But hematopoietic mainly carried by liver until birth
Definitive HSCs from splanchnic mesoderm of AGM
◦ In the ventral floor of the dorsal aorta appears at 27th day
increase to thousands cells by 35th day
Disappear by 40th day
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Hematopoiesis Site of hematopoiesis
phases of hemoglobin synthesis
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intraembryonic vasculogenesisStarts on day 18
blood vessels begin developing in intraembryonic splanchnic mesoderm
◦ Unlike blood extraembryonic and AGM region is not coupled with hematopoiesis
only EPCs (angioblasts) develops Vasculogenesis
Blood network grows and spreads by
◦ (1) continued formation, migration, and coalescence of EPCs (new vasculogenesis)
◦ (2) angiogenesis budding and sprouting of new vessels from existing endothelial cords
◦ (3) vascular intussusception (nonsprouting angiogenesis) existing vessels are split to generate additional vessels
◦ (4) intercalation of new EPCs into the walls of existing vessels
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Vasculogenesis & Angiogenesis
level of oxygenation mediates angiogenesis by altering levels of Vegf
Under hypoxic conditions
Vegf is released
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Arteries and veins differencesdifferences in directions of blood flow, morphology and physiology
Flow dynamics in capillary-sized vessels
◦ Flow increases (arterial vessels)
◦ Floe decreases (venous vessels)
before blood flow
◦ endothelial cells of capillary beds not identical arterial specification
venous specification
◦ Also endothelial cells have plasticity in their ability based on their local environment
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Arteries and veins differences
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Development of Aortic Arches
In the human embryo, 5 pairs of mesenchymal condensations develop on pharynx
pharyngeal arches
◦ Correspond to branchial arches 1, 2, 3, 4, and 6 of fish ancestor
5 pairs of Aortic arches from Aortic sac
◦ first pair formed between 22-24th days Dorsally, connect to left and right dorsal aortae
dorsal aortae
remain separate in the region of the aortic arches
they fuse together from 4th T to 4th L segment (during 4th week)
◦ Between days 26 and 29 aortic arches 2, 3, 4, and 6 develop
◦ Neural crest cell play a significant role in the normal development of aortic arch
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Aortic Arches (1, 2, 3)
First aortic arches
◦ portions of maxillary arteries
second aortic arches
◦ part of the hyoid and stapedial arteries
segments of dorsal aorta connecting 3rd and 4th arch
(carotid duct) disappear
third aortic arches
◦ common carotid arteries
◦ proximal portion of internal carotid arteries distal portion derived from cranial extensions of dorsal aortae
external carotid arteries sprout from the common carotids
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Aortic Arches (right 4th)By the 7th week
right dorsal aorta
◦ loses its connections with midline dorsal aorta
right sixth arch
◦ remaining connected to right fourth arch
◦ Acquires right seventh cervical intersegmental artery
right subclavian artery
◦ (1) right fourth arch
◦ (2) short segment of right dorsal aorta
◦ (3) right seventh intersegmental artery.
region of aortic sac connected to right fourth artery
◦ brachiocephalic artery
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Aortic Arches (left 4th)
left fourth aortic arch + small segment of aortic sac
◦ aortic arch
◦ most cranial portion of descending aorta
left seventh intersegmental artery
◦ left subclavian artery
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Aortic Arches (6)
right and left 6th arches arise from proximal end of aortic sac
By the 7th week◦ right 6th arch
disappears distal connection with dorsal aorta
◦ left sixth arch remains complete
distal portion forms ductus arteriosus
ligamentum arteriosum
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left and right recurrent laryngeal nerves
originally arise below the level of 6th arch
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Dorsal Aorta and ventral Branches
Dorsal aorta
Left dorsal aorta
Merged left & right aorta (T4-L4)
vitelline system
blood vessels arising from yolk sac wall
◦ As yolk sac shrinkage right and left vitelline plexuses coalesce
Anastomoses with vascular plexuses of future gut
ventral surface of dorsal aorta
◦ Cranial to the diaphragm (5 pairs) supply thoracic esophagus
◦ Caudal to the diaphragm (3 pairs) celiac artery (abdominal foregut)
initially at C7, finally at T12
superior mesenteric artery (midgut) Initially T2, finally L1
inferior mesenteric artery (hindgut) initially T12, finally L3
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Dorsal Aorta and umbilical arteries
umbilical arteries develop in connecting stalk early in the 4th week
(earliest embryonic arteries to arise)
◦ initially connected with paired dorsal aorta
◦ secondary connected with branch of dorsal aorta (common iliac artery)
After birth
◦ proximal portions of umbilical arteries internal iliac
superior vesical arteries
◦ distal parts obliterated medial umbilical ligaments
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Dorsal Aorta and Lateral Branches
suprarenal glands
Form between T6-12
◦ vascularized mainly by pair of lateral aortic branches at upper lumbar level (suprarenal arteries) also acquire branches from
renal artery and inferior phrenic artery
presumptive gonads become vascularized by gonadal arteries
◦ arise initially at T10
◦ As gonads descend origin of the gonadal arteries becomes fixed L3-4
definitive kidneys arise in the sacral region
As they migrate, vascularized by transient aortic branches
final pair of arteries in upper lumbar region become definitive renal arteries
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Dorsal Aorta and Intersegmental
Branches At the end of the 3rd week arise from posterolateral surface of
descending aorta and vascularize somite derivatives from cervical through sacral levels
cervical, thoracic, and lumbar regions
◦ dorsal branch developing neural tube
Epimeres (deep muscles of neck and back)
◦ Cutaneous branches dorsal skin
◦ ventral branch developing hypomere and associated skin
in the thoracic region intercostal arteries
cutaneous branches
in the lumbar and sacral regions lumbar and lateral sacral arteries
short continuation of caudal dorsal aorta beyond its bifurcation
◦ median sacral artery
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Dorsal Aorta and Intersegmental
Branches in the cervical region
intersegmental branches anastomose with each other◦ paired vertebral arteries
secondarily lose their intersegmental connections to aorta
◦ deep cervical
◦ ascending cervical
◦ superior intercostal
◦ internal thoracic
◦ superior and inferior epigastric arteries
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Upper limb vasculatures
Arteries of developing upper limbs◦ 1. mainly from 7th cervical intersegmental artery
◦ 2. axis artery develops along central axis of limb buds
brachial artery
anterior interosseous artery
deep palmar arch
sprouts of axis artery Radial
Median
Ulnar
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Lower limb vasculatures
Arteries of developing lower limbs
◦ mainly from 5th lumbar intersegmental artery Proximal segment
common iliac artery
Distal segment internal iliac arteries
also give rise to external iliac arteries.
◦ axis artery Primitive axial artery
(distal continuation of internal iliac artery) largely degenerates
Its remnants
sciatic (ischiadic) artery
segment of popliteal artery
section of peroneal artery
definitive axial artery (external iliac artery)
all other arteries develop as sprouts of external iliac artery
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Embryonic venous system
Initial bilaterally symmetric System
◦ vitelline system Drains gastrointestinal tract and derivatives
◦ umbilical system carries oxygenated blood from the placenta
◦ cardinal system Drains head, neck, and body wall
shift of systemic venous to right atrium remodeled to adult patterns
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Vitelline VeinsGives Rise to Liver Sinusoids, Portal System, and a Portion of Inferior Vena Cava
vitelline veins arise from capillary plexuses of yolk sac
form part of vasculature of developing gut and derivatives
Initial pair of vitelline veins
◦ vitelline plexuses in septum transversum surrounded by growing liver cords
liver sinusoids
Ductus venosus
left vitelline vein diminishes by sinus horn regression
Right vitelline vein
◦ cranial portion (between liver and heart) hepatocardiac portion of inferior vena cava
◦ Segment caudal to developing liver and anastomoses portal system
portal vein
superior mesenteric vein
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Umbilical Veins
During second month◦ right umbilical vein completely obliterated
◦ left umbilical vein persists with formation of liver
loses its connection with left sinus horn
forms a new anastomosis with ductus venosus
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Cardinal Veins
During 4th week
Anterior, posterior and common cardinals
During 5-7th week
subcardinal veins
◦ sprout from base of posterior cardinals (end of 6th week)
◦ mainly drain kidneys
supracardinal veins
◦ Drain body wall via intercostal veins
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Anterior cardinal veins
cranial portions of anterior cardinal veins
◦ internal jugular veins
external jugular veins
◦ capillary plexuses in face become connected Internal jugular veins
anastomosis between the anterior cardinal veins
◦ left brachiocephalic vein
superior vena cava
◦ right common cardinal vein
◦ proximal portion of right anterior cardinal vein
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Anterior cardinal veins
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Posterior cardinal veins
become obliterated over most of their length
proximal portion of left posterior cardinal vein
◦ entering into the left brachiocephalic vein left superior intercostal vein
receives blood from 2 an 3rd intercostal spaces The.
most caudal portions of posterior cardinals (Sacrocardinal)
(including a large median anastomosis)
◦ Form new anastomosis with supracardinal veins common iliac veins
caudalmost (sacral portion) of IVC
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Subcardinal veins
By 7-8th weeks sprout from base of posterior cardinals
subcardinal veins
◦ lateral anastomoses with posterior cardinals
◦ median anastomoses left renal vein
by the 9th week
left subcardinal vein
◦ Regress distal portion remains as left gonadal vein
right subcardinal vein
◦ loses its original connection
◦ develops a new anastomosis with segment of right vitelline vein renal segment of the inferior vena cava
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Supracardinal veins
with obliteration of major portion of posterior cardinal veins
supracardinal veins assume a greater role in draining the body wall (segmental intercostal veins)
The veins sprout from base of posterior cardinals
right supracardinal vein
◦ Cranial portion 4th to 11th right intercostal veins
Main portion of azygos vein
◦ abdominal portion anastomoses with right subcardinal vein
segment of IVC just inferior to kidneys
azygos vein
◦ right supracardinal vein
◦ portion of posterior cardinal vein
left supracardinal vein
◦ 4th to 7th intercostal veins hemiazygos vein
inferior portion obliterated
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Sacrocardinal
(caudal segment of post. Cardinal) veins
their anastomosis
◦ left common iliac vein
Left sacrocardinal vein
◦ Cranial portion Regress
right sacrocardinal vein
◦ Cranial portion sacrocardinal segment of inferior vena cava
◦ Caudal portion Right common iliac vein
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Inferior Vena Cava
(1) right vitelline vein
(2) right subcardinal vein
(3) right supracardinal vein
(4) caudal portions of posterior cardinals
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Venous System Defects
A, double inferior vena cava
◦ Preservation of left supracardinal vein
B, double superior vena cava
◦ Preservation of left anterior cardinal left superior vena cava empties into coronary sinus
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Venous System Defects
Double inferior vena cava
◦ Preservation of left sacrocardinal vein
Absent inferior vena cava
◦ lower half of body drained by azygos vein
◦ hepatic vein enters heart at site of IVC
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Lymphatic System
lymphatic channels arise by vasculogenesis and angiogenesis from mesodermal precursors after 5th week
pair of jugular lymph sacs
◦ collect fluid from lymphatics upper limbs, upper trunk, head, and neck
four additional lymph sacs
◦ cysterna chyli initially drains into symmetrical pair thoracic lymphatic ducts
both of these ducts obliterated
definitive thoracic duct derived from caudal portion of right duct
cranial portion of left duct
median anastomosis
◦ posterior lymph sacs
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Endocardial Cushions and Heart Defects
Atrial, ventricular septal and great vesselsdefects
DiGeorge sequence◦ abnormal neural crest development. facial defects
thymic hypoplasia
parathyroid dysfunction
cardiac abnormalities outflow tract
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Arterial System Defects
double aortic arch
◦ failure of right dorsal aorta regression
◦ esophagus and trachea enclosed in double arch
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Arterial System Defects
right subclavian artery anomalous
◦ Retention of right dorsal aorta at level of 7th intersegmental artery
◦ abnormal regression of right 4th aortic arch
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Arterial System Defects Coarctation of the aorta
◦ A. Preductal type
◦ B. Postductal type
caudal part of body supplied by large internal thoracic and intercostal arteries
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Arterial System Defects
Right aortic arch
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Circulation Before Birth
Saturated & desaturated blood mixing
◦ in the liver By blood from portal system
◦ in the IVC By blood from lower extremities, pelvis, and kidneys
◦ In right atrium By blood from head and limbs
◦ in the left atrium by blood from lungs
◦ in the descending aorta at entrance of ductus arteriosus
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Circulation Before and After Birth
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Circulatory Changes at Birth
by cessation of placental blood flow and the beginning of respiration
Closure of umbilical arteries
◦ medial umbilical ligaments
◦ proximal portions superior vesical arteries
Closure of umbilical vein
◦ ligamentum teres hepatis
Closure of ductus venosus
◦ ligamentum venosum.
Closure of ductus arteriosus
◦ ligamentum arteriosum
Closure of oval foramen
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