Cardiovacular Embryology- Melissa (3)*

Question 1

By what weeks (gestation) have the endocardial tubes formed?

Answer 1

2-3 weeks (18-19 days)

Question 2

By what week gestation do the paired endocardial tubes fuse and establish trunks arteriosis outflow?

Answer 2

3 weeks

Question 3

By when do contractions begin in the fetal heart?

Answer 3

3-4 weeks; 22-23 days

Question 4

What is happening during week 4 gestation in terms of heart development?

Answer 4

heart tube continues to elongate, curves to form S shape

also circulation begins d27-29

Question 5

When does atrial and ventricular separation start?

When is it complete?

Answer 5

Week 5/ Day 26

Complete (4 chambers closed) by day 50

Question 6

At what point does the foramen ovale close?

What rudimentary structure is left?

Answer 6

Week 37/ 38 (after birth in response to the pressure difference)
*Fossa Ovalis remains

Question 7

Describe the 3 steps that lead up to formation of the single heart tube:

Answer 7

1. medial migration of angiogenic cells
2. formation of 2 endocardial tubes
3. fusion of endocardial tubes (cranial–>caudal) during lateral folding of the embryo

Question 8

List the 5 dilations of the single heart tube (Cranial–> caudal):

Answer 8

1. Truncus arteriosis
2. Bulbus cordis
3. Primative ventricle
4. Primative atrium
5. Sinus Venous

Question 9

Truncus arteriosis derivatives (2):

Answer 9

1. proximal aorta

2. proximal pulm. arteries

Question 10

Bulbs Cordis derivatives (2):

Answer 10

1. smooth part of R ventricle (conus arteriosis)

2. Part of left ventricle (smooth also, bc its membranous septum?)

Question 11

Primitive ventricle derivatives:

Answer 11

Trebeculated portion of rt and lt ventricles

Question 12

Primitive atrium derivatives:

Answer 12

R (trabeculated), L atria

Question 13

Sinus venosus derivatives:

Answer 13

1. smooth R atrium (R horn)
2. coronary sinus (L horn)
3. oblique vein

Question 14

Describe the process of DEXTRAL folding:
What is happening?
Why?
What is the end result?

Answer 14

• Bulboventricular sac grows faster than rest of embryo/ pericardial sac
• Tube folds to the RIGHT–> forms
  bulbovenvricualr fold–> organ shifts LEFT
• Atrium + sinus venous move dorsal/ cranial and enter pericardial sac

Question 15

What is the first organ to treat rt/lt symmetry?

Answer 15

Heart!

Question 16

By when is folding of the heart and migration of neural crest cells to the outflow tract complete?

Answer 16

Day 28 (week 4)

Question 17

Describe the order of events in atrial septation (6):

Answer 17

1. SEPTUM PRIMUM forms
   (roof of atrial segment–> endocardial cushion)
2. SP forms boundaries of FORAMEN PRIMUM
3. Apoptosis in posterior SP–> FORAMEN SECUNDUM
4. SP closes
5. SEPTUM SECUNDUM froms to Rt of SP
   (roof of atrial segment–> endocardial cushion)
6. SS grows in arc anteriorly–> FORAMEN OVALE

Question 18

What is the foramen ovale/ when is it TECHNICALLY formed?

Answer 18

Foramen ovale is ostium secundum covered by septum secundum. Foramen ovale cannot be called foramen ovale until: septum secundum forms + septum primum joins endocardial cushions.

(Very clear and concise; was trying to describe how s.secundum doesn’t totally close–thank you Leah, for revising :)!)

Question 19

Describe atrioventricular canal formation (2):

Answer 19

1. fusion of superior + inferior endocardial cushions–>
   Rt, Lt atrioventricular orifices form
2. mesenchymal cells form fibrous part of M/T (AV) valves

Question 20

Describe separation of truncus arteriosis (3):

Answer 20

1. neural crest cells elongate outflow tract + aortic arch
2. ingrowth of 2 opposing mesenchymal ridges
3. spiraling configuration and fusion of ridges (distal–> proximal)

Question 21

Which three structures fuse to make the membranous portion of the intraventricular septum?
From what heart dilations do they derive?

Answer 21

1. Rt bulbar ridge (bulbs cordis)
   2, Lt bulbar ridge (bulbs cordis)
2. AV septum (endocardial cushions)

Question 22

By what process do the AV valves form?

Answer 22

Delamination of leaflets from superficial myocardium
*Note: myocardium is MESENCHYMAL tissue.
(+ Selective apoptosis to form gaps between leaflets)

Question 23

How does the muscular portion the ventricular septum form?

How do the 4 chambers all close off?

Answer 23

• apical portions of ventricles balloon out;

- merger of the muscular ventricular septum with the outflow separation closes off the 4 chambers

Question 24

Derivatives of first aortic arch

Answer 24

Maxillary and external carotid artery (ECA)

Question 25

Derivatives of second aortic arch

Answer 25

Stapedial and hyoid aa

Question 26

Derivatives of third aortic arch

Answer 26

Common carotid aa. and proximal internal carotid aa

Question 27

Derivatives of 4th aortic arch

Answer 27

Lt: aortic arch
Rt: subclavian, then degenerates distally (failure to degenerate = double aortic arch; #1 type of vascular ring!)

Question 28

Derivatives of 6th aortic arch

Answer 28

proximal: rt, lt pulm. arteries

Left distal: ductus arteriosus

Question 29

How do the pulm. vv’s form?

By what week have they fused with the developing atrium?

Answer 29

Lung bud 1 + Lung bud 2–>
Primitive pulm vein–>
Incorporates into wall of developing atrium by 8 weeks

Question 30

By when has common pulm vein differentiated into rt and lt vv’s draining info left side of atrial septum,?

Answer 30

12 weeks

Question 31

Persistant primitive heart tube:

Answer 31

lethal

Question 32

Defective looping of heart tube:

Answer 32

dextrocardia, situs inverts

First Aid: Kartagener Syndrome, L –> R dynein deficiency

Question 33

Effects of double wedging/ ventricular separation:

Answer 33

double outlet right ventricle

Question 34

Derivatives of dorsal aorta?

Answer 34

Right subclavian

Left subclavian and descending aorta

Question 35

Derivatives of vittelline arteries

Answer 35

SMA, IMA, Celiac

Question 36

Derivatives of umbilical arteries:

Answer 36

Internal iliac
Superior vesical
(Arteries)

+ mediaL umbilical ligaments

Question 37

When and where do coronary arteries originate?

Answer 37

33-39 days

Extracardiac tissue joins aorta in the sinuses of valsalva

Question 38

What parts of the heart are derived from neural crest cells? What is the rest derived from?

Answer 38

AP septum & carotid body from neural crest cells

The rest is driver from splanchnic mesoderm

Question 39

What would you expect to see in terms of cardiac development at each of the following times?

1. 18-24 days
2. 22-24 days
3. 26-40 days (2 things)
4. 29-55 days
5. 33-39 days

Answer 39

1. 18-24 days: formation of heart tube
2. 22-24 days: heart beats
3. 26-40 days (2 things): separation/ chamber formation, great vessel formation
4. 29-55 days: valves form
5. 33-39 days: coronary vessels form

Question 40

Memory Hook for Aortic Arches

Answer 40

1: 1st arch is MAXimal (maxillary artery)/ ECA
2: “S” for “s”econd = “s”tapedial/ hyoid
3: C- 3rd letter of alphabet- CCA/ ICA
4th: supplies the FOUR limbs (left- aortic arch, right subclavian)
5th: You won’t “F”ind the “F”ifth anywhere
6: pulmonary arteries/ ductus arteriosus.
(ductus has 6 letters)

Question 41

Failure of right 4th aortic arch?

Answer 41

Double vascular ring.