7 - Development of Great Vessels

Question 1

Development of the Arterial System

Answer 1

1st month to 1st breath

Occurring at the same time with
expanding rest of body vessels

Question 2

Aortic Arches: Arise from the

Answer 2

aortic sac

Question 3

Aortic Arches: Terminate in the

Answer 3

right & left dorsal aortae

Question 4

Aortic Arches: Appear in a

Answer 4

cranial to caudal sequence & not all simultaneously

Question 5

Aortic Arches:

Answer 5

Aortic arch arteries, pharyngeal arch arteries and branchial (gill) arch arteries are all synonyms

Question 6

Note: right & left dorsal aortae fuse into a

Answer 6

single vessel from 4th thoracic region to 4th lumbar region

Question 7

1st arch

Answer 7

Regress – maxillary a.

Question 8

2nd arch

Answer 8

Regress – stapedial & hyoid aa.

Question 9

3rd arch

Answer 9

L/R common carotid, internal carotid, & external carotid aa.

Question 10

4th arch

Answer 10

Left: Part of aortic arch

Right: Part of the r. subclavian a.

Question 11

6th arch

Answer 11

Left: L. pulmonary a. & ductus arteriosus

Right: R. pulmonary a.

Question 12

7th segmental artery

Answer 12

Left: L. subclavian a.

Right: Part of r. subclavian a.

Question 13

Dorsal aorta

Answer 13

Left: Descending thoracic aorta

Right: Regress – part of r. subclavian a.

Question 14

Aortic sac*

Answer 14

Left: Part of aortic arch

Right: Brachiocephalic trunk

Question 15

Note that the arteries arising from the first three pairs of aortic arch arteries are

Answer 15

bilateral, whereas vessels derived from arches four and six develop asymmetrically

Question 16

Also note the aortic sac will form

Answer 16

right and left horns which will subsequently form the left/right adult derivatives

Question 17

Sixth arch is known as the

Answer 17

pulmonary arch.

Question 18

7th segmental artery will form the whole

Answer 18

left subclavian artery and part of the right subclavian

Question 19

Note the aortic sac forms

Answer 19

right and left horns which will subsequently form the left/right adult derivatives

Question 20

Part of right dorsal aorta

Answer 20

disappears
Heart moves into thoracic cavity; carotid & brachiocephalic aa. elongate; left subclavian shifts position
Course of recurrent laryngeal nn. becomes different on right and left

Question 21

Most somatic arteries of trunk develop from

Answer 21

intersegmental arteries from dorsal aorta

Develop:
Intercostal aa.
Lumbar aa

Question 22

Vitelline Artery: Initially are number of

Answer 22

paired vessels supplying the yolk sac

Will fuse to form arteries in dorsal mesentery of the gut

Question 23

Vitelline Artery: Develop into:

Answer 23

Celiac a. (trunk)

Superior mesenteric a.

Question 24

Umbilical Artery: Initially are paired

Answer 24

ventral branches off dorsal aorta; course to the placenta

Question 25

Umbilical Artery: Develop into:

Answer 25

Inferior mesenteric a.

Question 26

Umbilical Artery: During week 4 also forms

Answer 26

secondary connection with dorsal aorta

Common iliac a.

Question 27

Umbilical Artery: After birth, proximal portions persist as

Answer 27

internal iliac & superior vesical aa.

Distal parts are obliterated to form the median umbilical ligaments

Question 28

Intersegmental arteries

derivatvies

Answer 28

Intercostal arteries

Lumbar arteries

Question 29

Vitelline arteries

derivatvies

Answer 29

Celiac trunk

Superior mesenteric artery

Question 30

Umbilical arteries

derivatvies

Answer 30

Inferior mesenteric artery
Common iliac artery
Proximal portion - Internal iliac artery & superior vesical artery
Distal portion – Medial umbilical ligaments

Question 31

Umbilical arteries

derivatvies

Answer 31

Inferior mesenteric artery
Common iliac artery
Proximal portion - Internal iliac artery & superior vesical artery
Distal portion – Medial umbilical ligaments

Question 32

Great vessels derived from

Answer 32

Derived from epicardium

Question 33

Connection to the aorta is formed by

Answer 33

ingrowth of arterial endothelial cells

This is how the coronary aa. “invade” the aorta

Question 34

Embryonic Venous System: 3 pairs of

Answer 34

major veins

All three systems are initially bilaterally symmetrical and converge on the right and left sinus horns of the sinus venosus. However, the shift of the systemic venous return to the right atrium initiates a remodeling that reshapes these systems to yield the adult patterns.

Question 35

Embryonic Venous System: Vitelline veins

Answer 35

Drains GI tract & gut derivatives

Question 36

Embryonic Venous System: Umbilical veins

Answer 36

Oxygenated blood from placenta to embryo

Question 37

Embryonic Venous SystemCardinal veins

Answer 37

Draining head, neck, & body wall

Question 38

Before entering sinus venosus, Vitelline veins forms

Answer 38

plexus around duodenum & pass through septum transversum

Question 39

Liver cords growing into the septum interrupt the course & form

Answer 39

hepatic sinusoids

Question 40

The network around the duodenum will form a

Answer 40

single vessel, the hepatic portal vein

Question 41

These veins (vitelline veins) arise from

Answer 41

capillary plexuses of yolk sac & forms part of vasculature of gut & derivatives

Initially drain into sinus horns of sinus venosus

Question 42

A reduction in the l. sinus horn results in:

Answer 42

Rechanneling of blood from l. side of liver toward the right

Enlargement of r. vitelline duct

Question 43

Enlargement of r. vitelline duct

Will form

Answer 43

part of the inferior vena cava

Question 44

The superior mesenteric vein is also derived from the

Answer 44

r. vitelline vein

Question 45

Right-left anastomoses remodeled to drain into the

Answer 45

portal vein

This is the splenic vein & inferior mesenteric vein

Question 46

A single oblique channel among the hepatic anastomoses becomes

Answer 46

dominant and drains directly into the inferior cava. This is the ductus venosus which we will look at when we describe the umbilical vein derivatives

Question 47

Persisting branches collect blood from the

Answer 47

abdominal foregut and the midgut.

Question 48

Prominent left-to-right vitelline anastomoses are remodeled to deliver blood to the

Answer 48

distal end of the portal vein through two veins: the splenic vein and the inferior mesenteric vein.

Question 49

R. umbilical vein will

Answer 49

regress and obliterate

Question 50

L. umbilical vein will lose connection to

Answer 50

sinus horn & form ductus venosus

Question 51

Bypasses the sinusoidal plexus of the

Answer 51

liver

Drains blood directly into the inferior vena cava

Question 52

In contrast to the vitelline veins, in which the left regresses and the right persists, during the second month the right umbilical vein becomes

Answer 52

completely obliterated and the left umbilical vein persists

Question 53

Ductus venosus is crucial during fetal life because it receives

Answer 53

oxygenated blood from the umbilical system and shunts it directly to the right vitelline vein and, hence, the right atrium

Question 54

Left umbilical v. will become

Answer 54

ligamentum teres hepatis

Question 55

Ductus venosus becomes

Answer 55

ligamentum venosum

Question 56

This cardinal system is initially

Answer 56

bilaterally symmetrical

Question 57

Anterior cardinal veins

Answer 57

Drain cephalic part of embryo

Question 58

Posterior cardinal veins

Answer 58

Drain rest of embryo

Question 59

Common cardinal veins

Answer 59

Ant. & post. cardinals join to form

Empty into sinus horns

Question 60

Subcardinal veins & supracardinal veins will form to

Answer 60

supplement & later replace post. cardinal vv.

Question 61

Posterior cardinal veins

Major Derviatives

Answer 61

Common iliac veins

Sacral portion of IVC

Question 62

Major Derviatives

Anterior cardinal veins

Answer 62

Brachiocephalic veins
Internal jugular vein
External jugular vein

Question 63

Major Derviatives

Supracardinal veins

Answer 63

Intercostal veins
Hemiazygos vein
Azygos vein
Segment of IVC inferior to kidneys

Question 64

Major Derviatives

Subcardinal veins

Answer 64

Renal veins
Gonadal veins
Renal segment of IVC

Question 65

Major Derviatives

Common cardinal veins

Answer 65

Superior vena cava (from right common cardinal)

Question 66

Fate of Posterior Cardinal Veins: Become obliterated over

Answer 66

most of their length

Question 67

Fate of Posterior Cardinal Veins: Most caudal portions (including a large median anastomosis) persist & form a

Answer 67

new anastomosis with the supracardinals

Question 68

Fate of Posterior Cardinal Veins: Caudal remnant develops into the

Answer 68

common iliac veins and the sacral portion of the IVC

Question 69

The common iliac veins sprout the

Answer 69

internal and external iliac veins

Question 70

Fate of Anterior Cardinal Veins: Cranial portions give rise to:

Answer 70

Internal jugular veins

Question 71

Fate of Anterior Cardinal Veins: Capillary plexuses in the face become connected with

Answer 71

these vessels to form the external jugular veins

Question 72

Fate of Anterior Cardinal Veins: Forms:

Answer 72

Brachiocephalic veins

Question 73

Fate of Anterior Cardinal Veins: Superior vena cava is formed by

Answer 73

r. common cardinal & proximal portion of r. ant. cardinal

Question 74

Anastomosis between the ant. cardinal vv. will develop into the

Answer 74

left brachiocephalic vein

Question 75

Fate of Supracardinal Veins: Abdominal portions:

Inf. portion of l. supracardinal

Answer 75

obliterates

Question 76

Fate of Supracardinal Veins: Abdominal portions:

R. supracardinal & subcardinal anastomose to form a

Answer 76

segment of the IVC just inf. to the kidneys

Question 77

Thoracic portions:

Fate of Supracardinal Veins

Answer 77

Intercostal veins
L. thoracic supracardinal
Remaining portion of the inf. r. supracardinal drains into the heart.

Question 78

Thoracic portions:
Fate of Supracardinal Veins:
L. thoracic supracardinal =

Answer 78

hemiazygos vein

Drains into the r.supracardinal system.

Question 79

Thoracic portions:
Fate of Supracardinal Veins
Remaining portion of the inf. r. supracardinal drains into the

Answer 79

heart.

Question 80

Fate of Supracardinal Veins take over the function of

Answer 80

posterior cardinals

Question 81

Fate of Subcardinal Veins: Reorganization between the two subcardinals

Answer 81

Numerous median anastomoses & some lateral anastomoses

Forms the renal veins & gonadal veins

Question 82

Fate of Subcardinal Veins: Longitudinal segments of the left subcardinal

Answer 82

regress

Question 83

Fate of Subcardinal Veins: Right subcardinal loses its connection with the posterior cardinal vein and develops an

Answer 83

anastomosis with a segment of the right vitelline vein (inf. to heart)

Question 84

Fate of Subcardinal Veins: Forms the portion of the

Answer 84

renal segment of IVC

Question 85

Fate of Subcardinal Veins: Through the remodeling process blood from the organs originally drained by the right and left subcardinal veins now returns to the

Answer 85

right atrium via the IVC.

Question 86

Development of Lymphatic System: 6 primary lymph sacs:

Answer 86

Jugular (2)
Iliac (2)
Retroperitoneal (1)
Cisterna chyli (1)

Question 87

Lymphatic vessels will connect to the

Answer 87

sac & pass along main veins

Question 88

Sacs coalescing and segmenting – similar processes that we have seen with all of the

Answer 88

vascular developmental processes.

Question 89

Right and left thoracic ducts initially connect the

Answer 89

jugular sacs with the cisterna chyli.

Anastomosis forms between these channels

Question 90

Thoracic duct = caudal right lymphatic duct + anastomosis of

Answer 90

left and right cranial thoracic ducts

Question 91

Right lymphatic duct =

Answer 91

cranial portion of the right thoracic duct