Heart Development

Question 1

Where do the first blood cells arise? Are these different from hematopoeitic stem cells?

Answer 1

First blood cells arise in blood islands on the wall of the yolk sac (mesoderm)- this population is transitory

Definitive hematopoeitic stem cells are derived from mesoderm surrounding the aorta in a site near the developing mesonephric kidney called the AGM

Question 2

What is the major hematopoietic organ in the fetus from month 2-7?

Answer 2

Liver

Question 3

Yolk sac mesoderm forms the first blood cells at day 17 and finishes by day 60. The liver primordia is colonized beginning at day _____ and continues until birth. The AGM begins hematopoietic processes at day _____ prior to contributing to liver colonization

Answer 3

23; 27-40

[bone marrow also hematopoietic at 10.5 weeks]

Question 4

Process by which cells of the primary heart field are induced by the underlying pharyngeal endoderm to form cardiac myoblasts and blood islands that will form blood cells and vessels

Answer 4

Vasculogenesis

Question 5

Blood cells may only belong to what lineage prior to colonization of the liver?

Answer 5

Myeloid

Question 6

____________ = common precursor for vessel and blood cell formation that are formed in blood islands of yolk sac

Answer 6

Hemangioblasts

Question 7

What is the difference in fate of hemangioblasts at the center of blood islands vs at the periphery?

Answer 7

Central hemangioblasts form hematopoietic stem cells (precursors of all blood cells)

Peripheral hemangioblasts differentiate into angioblasts (precursors to blood vessels)

Question 8

______ = formation of blood vessels by sprouting from existing vessels

Answer 8

Angiogenesis

Question 9

_____ = existing blood vessel splits into 2

Answer 9

Intussusception

Question 10

What is the AGM region?

Answer 10

Aortic-gonadal-mesonephric region

Where definitive hematopoietic stem cells are programmed from hemogenic endothelial precursor cells

[hematopoietic stem cells appear at day 27 and disappear from AGM by day 40]

Question 11

What is the major difference between intraembryonic vasculogenesis and extraembryonic vasculogenesis?

Answer 11

Intraembryonic vasculogenesis involves coupling with hematopoiesis (because it all starts with the blood islands)

All other de novo blood vessel formation occurs SEPARATE from hematopoeisis

Question 12

Extraembryonic vasculogenesis begins around day 17 when extraembryonic ______ and _______ mesoderm differentiate into either hematopoietic progenitors or ___________ precursor cells. The primary function is to meet immediate need for blood cells

Answer 12

Splanchnic; chorionic

Endothelial

Question 13

What are the 2 major mechanisms of vascular plexus expansion

Answer 13

Angiogenesis

Intussusception

Question 14

______ are characterized by abnormal blood vessel and lymphatic capillary growth

Answer 14

Angiomas

Question 15

What type of angioma is characterized by excessive growth of capillaries?

Answer 15

Capillary hemangioma

Question 16

What type of angioma is characterized by excessive growth of venous sinuses?

Answer 16

Cavernous hemangioma

Question 17

Generation of ______ _______ forms 2 bilateral primary heart fields which eventually fuse, thereby creating linear primary heart tube

Answer 17

Precardiac mesoderm

Question 18

By day 18 of heart development, the lateral mesoderm of the primary heart tube has ______ and _______ components, and the latter will give rise to almost all heart components

Answer 18

Somatopleure; splanchnopleure

Question 19

Early endocardial cells separate from the mesoderm to create paired heart tubes; what process occurs to bring the paired heart tubes together into a single tube?

Answer 19

Lateral embryonic folding

Question 20

What structures eventually unite to form a horseshoe shaped endothelial lined tube surrounded by myoblasts, forming the cardiogenic region?

Answer 20

Blood islands

Question 21

The intraembryonic cavity over the cardiogenic region of the primitive heart will later develop into what structure?

Answer 21

Pericardial cavity

Question 22

What structures form from blood islands that appear bilaterally and close to midline of the embryonic shield?

Answer 22

Dorsal aortae

Question 23

All heart structures come from embryonic _______ _______, except for neural crest cells which are ________

Answer 23

Splanchnic mesoderm; ectoderm

Question 24

When does the primary heart field form

Answer 24

Around day 19 (range of 16-18)

Question 25

Where is the primary heart field located?

Answer 25

Splanchnic layer of lateral plate mesoderm, cranial to neural folds (these are progenitor heart cells which migrated from the epiblast - aka the area just cranial to the primitive streak)

Question 26

As progenitor cells migrate from the epiblast to form the primary heart field, they are specified on both sides from lateral to medial to become what heart structures?

Answer 26

Atria
Left ventricle
Most of right ventricle

Question 27

The primary heart field appears around day 19. When does the secondary heart field appear?

Answer 27

Day 20-21

Question 28

What structures are formed from the secondary heart field?

Answer 28

Remainder of right ventricle
Outflow tract (conus cordis, truncus arteriosus)

Question 29

Where is the secondary heart field found?

Answer 29

Splanchnic mesoderm ventral to posterior pharynx

Question 30

What regulates formation of secondary heart field

Answer 30

Neural crest cells - which control concentrations of FGFs in the area and pass the SHF in the pharyngeal arches as they migrate from the hindbrain to septate the outflow tract

Question 31

What gives rise to the epicardium, interstitial cells and vasculature smooth muscle, and coronary vasculature?

Answer 31

Pro-epicardium

Question 32

What are the 3 layers of the simple single heart tube?

Answer 32

Primordial myocardium (external layer)

Epicardium (visceral pericardium)

Endocardium (internal endothelial lining of the heart)

Question 33

What forms the external layer (primordial myocardium) of the simple single heart tube

Answer 33

Splanchnic mesoderm surrounding the pericardial cavity (cardiac precursors of anterior/secondary heart field)

Question 34

Which layer of the heart tube is derived from mesothelial cells that arise from external surface of sinus venosus and spread over myocardium?

Answer 34

Epicardium - often referred to as cardiac jelly

Question 35

When is cardiac looping complete and what are the results?

Answer 35

Complete by day 28

Result is an S-shaped heart with atrium located dorsal to outflow part of heart

Outflow part of heart (bulbus cordis) leads to the aortic sac and aortic arch system

Internal septum begins to divide ventricle and later an internal septum will begin to divide the atria

Question 36

__________ = broader proximal part of bulbus cordis

____________ = narrower distal part of bulbus cordis

[bulbus cordis is the outflow part of the heart]

Answer 36

Conus arteriosus

Truncus arteriosus

Question 37

How is the transverse pericardial sinus formed during heart looping?

Answer 37

The central part of the dorsal mesentery degenerates (which was suspending the heart tube), forming TPS between the right and left sides of the pericardial cavity

Question 38

What is the role of the secondary heart field in cardiac looping?

Answer 38

Cells from the secondary heart field are added to cranial end of the heart tube as it continues to elongate

This lengthening process is essential for normal formation of part of RV, outflow tract, and looping

Question 39

What do the bulbus cordis and conus cordis become?

Answer 39

Bulbus cordis becomes trabeculated part of RV

Conus cordis forms outflow tracts of both ventricles

Question 40

At first, circulation through the primordial heart is an ebb-and-flow type, but by the end of the 4th week coordinated contractions of the heart result in unidirectional flow.

Initially, the ______ acts as an interim pacemaker of the heart, the ______ _______ then takes over this function.

The SA node develops in the ______ week, located in the right wall of the RA.

Answer 40

Atrium; sinus venosus

Question 41

____ is the most frequent positional defect of the heart where the embryonic heart tube bends to the left instead of to the right

Answer 41

Dextrocardia

Question 42

When would dextrocardia be the least symptomatic?

Answer 42

If combined with situs inversus (transposition of abdominal viscera) because then organs match up with heart reversal

Question 43

______ ______ = partial reversal of organs

Answer 43

Situs ambiguous

Question 44

What condition is characterized by a right sided left ventricle of the heart but a normal GI arrangement; thus the left ventricle is hooked up to the pulmonary trunk instead of the aorta?

Answer 44

Visceroatrial heterotaxia

Question 45

3 paired veins drain into the primordial heart of a 4 week embryo. What are they ?

Answer 45

Vitelline veins

Umbilical veins

Common cardinal veins

Question 46

________ return poorly oxygenated blood from the umbilical vesicle to the sinus venosus after passing through the septum transversum

Answer 46

Vitelline veins

Question 47

________ veins carry well-oxygenated blood from the chorionic sac of the placenta, running on each side of the liver to drain into the sinus venosus of the primordial heart of the 4 week embryo

Answer 47

Umbilical veins

Question 48

The right umbilical vein disappears during week 7, leaving the left umbilical vein as the only vessel carrying oxygenated blood from the placenta to the embryo. The persistent caudal part of the left umbilical vein is connected to the IVC via what?

Answer 48

Ductus venosus - forms bypass through the liver, enabling most of the blood from the placenta to pass directly to the heart

Question 49

What veins return poorly oxygenated blood from the body of the embryo to the heart - serving as the major venous drainage of the embryo?

Answer 49

Common cardinal veins

Question 50

Describe structural features of RA when the sinus venosus is incorporated into its wall

Answer 50

Initially, the sinus venosus is a separate chamber of the heart and opens into the dorsal wall of the RA.

The left horn of the sinus venosus becomes the coronary sinus; the right horn is incorporated into the RA wall as the sinus venarum

The remainder of the anterior internal surface of the RA have rough trabeculated appearance

Question 51

________ = represents the cranial part of right SA valve that demarcates smooth and rough portions of right atrium

Answer 51

Crista terminalis

Question 52

What is the external division that corresponds to the internal crista terminalis?

Answer 52

Sulcus terminalis

Question 53

_________ =smooth part of wall of right atrium

Answer 53

Sinus venarum

Question 54

The sinoatrial orifice is the entrance to the smooth walled part of the right atrium. It is flanked on each side by a valvular fold (right and left venous valves) that fuse dorsocranially to form the _______ _______

Answer 54

Septum secundum

Question 55

Initially the right and left valves are large, but when the right sinus horn is incorporated into the right atrial wall, left venous valve and septum spurium fuse with developing atrial septum

At that point the superior portion of the right venous valve disappears entirely and the inferior portion of the right venous valve develops into what 2 structures?

Answer 55

Valve of IVC

Valve of coronary sinus

Question 56

What are the 2 major processes by which cardiac septa are formed?

Answer 56

Cushion tissue formation

Differential growth

Question 57

Describe cushion tissue formation as it relates to cardiac septation

Answer 57

2 actively growing masses of tissue approach each other until they fuse, dividing the lumen into 2 separate canals

Question 58

Describe differential growth as it relates to cardiac septation

Answer 58

Active growth of a single tissue mass that continues to expand until it reaches the opposite side of the lumen

Question 59

Is septum secundum muscular or membranous

Answer 59

Muscular

Question 60

What forms the muscular part of the interventricular septum

Answer 60

Myocytes from both left and right primordial ventricles (later increased in size by active proliferation of myocytes in septum)

Question 61

What forms membranous septa portion of AV septum?

Answer 61

Endocardial cushions

[AV endocardial cushions form on dorsal and ventral walls of AV canal from ECM as well as NCCs. Cushion tissue is invaded by mesenchymal cells during week 5, causing cushion tissue to fuse and form septum]

Question 62

Describe origin of outflow tract in proximal region vs. distal region

Answer 62

Proximal region - derived from secondary heart field

Distal region - derived from neural crest

Question 63

Describe partitioning of the outflow tract

Answer 63

Begins with growth of 2 opposing truncoconal ridges into the lumen; ridges meet in the middle and completely divide the lumen into 2 separate passageways

Final septum forms a spiral path which creates spiral pattern of ascending aorta with the pulmonary trunk in the final pattern

Question 64

What is the inductive stimulus for endocardial cushions to lose their epithelial character and become transformed into mesenchymal cells which then migrate into cardiac jelly?

Answer 64

Degradation of adherons

Question 65

During what week of development does atrial partitioning occur?

Answer 65

5th week

Question 66

What are the 3 openings found in the early atrial partitioning?

Answer 66

Interatrial foramen primum

Interatrial foramen secundum

Foramen ovale

Question 67

Space between leading edge of septum primum and endocardial cushion forming a right to left atrial shunt

Answer 67

Interatrial foramen primum

Question 68

Space that forms at cephalic end of septum primum through apoptosis and continues the right to left atrial shunt after the foramen primum closes with the fusion of the septum primum with the endocardial cushion

Answer 68

Interatrial foramen secundum

Question 69

The foramen ovale is a right to left atrial shunt that forms within which part of the interatrial septum?

Answer 69

Septum secundum

Question 70

Describe unidirectional blood flow between the 2 developing atrial chambers

Answer 70

From sinus venosus –> primordial atrium –> AV canal –> primordial ventricle –> bulbus cordis + truncus arteriosus –> aortic sac –> pharyngeal arches –> dorsal aorta

Question 71

What controls the blood flow from the sinus venosus into the primordial atrium?

Answer 71

Sinuatrial valves

Question 72

Describe the interatrial septum primum

Answer 72

Downward growth from roof of primordial atrium to endocardial cushion separating it into left and right chambers

[foramen primum will be located in between its free edge and endocardial cushions, serving as a shunt that enables blood to pass from right to left atrium]

Question 73

What forms to the right of the septum primum and from dorsal to ventral part of the atrium, gradually overlapping the foramen secundum in the septum primum?

Answer 73

Interatrial septum secundum

[this forms an incomplete partition, leaving the foramen ovale]

Question 74

What pressure changes in the heart cause the foramen ovale to close at birth?

Answer 74

Pressure in left atrium increases as blood returns from lungs; eventually septum primum is pressed against septum secundum and adheres, so that foramen ovale becomes fossa ovalis

Question 75

What secondary heart field derived structure may also be referred to as the vestibular spine or spina vestibuli?

Answer 75

Dorsal mesenchymal protrusion

Question 76

Formation of the dorsal mesenchymal protrusion is critical for what processes?

Answer 76

Formation of AV mesenchymal complex

Atrial septation

Determining location of where pulmonary veins drain into the heart

Question 77

Describe cyanosis

Answer 77

Blueish skin tone due to O2 sats less than 90%

May be due to mixing of oxygenated with deox blood

Manifested by clubbing of fingers, blue nail beds and lips, fatigue

Question 78

What is the most commone ASD

Answer 78

Foramen ovale

Question 79

Consequences of patent foramen ovale

Answer 79

A small isolated patency is not problematic but if other defects like pulmonary stenosis or atresia are present, blood is shunted through the ovale into the left atrium and produce cyanosis

Question 80

Most common causes of atrial septal defects

Answer 80

Excessive resorption of tissue around foramen secundum or hypoplastic growth of septum secundum

Less common is d/t lack of union between endocardial cushions and septum primum

Question 81

4 types of ASDs

Answer 81

Ostium secundum defect

Endocardial cushion defect with ostium primum defect

Sinus venosus defect

Common atrium (septum absent)

Question 82

What is the dorsal mesenchymal protrusion derived from

Answer 82

Splanchnic mesoderm in SHF

Question 83

How do developing ventricles gain access to AV canal?

Answer 83

When partitioning of truncus arteriosus is nearly complete, semilunar valves begin to develop from 3 sweelings of subendocardial tissue around orifices of aorta and pulmonary trunk (NCCs also contribute)

Question 84

How is the outflow tract divided so that the aorta and pulmonary trunk are connected to the appropriate ventricles?

Answer 84

Membranous part of IV septum merges with aorticopulmonary septum and thick muscular part of IV septum

The bulbar and truncle ridges undergo 180 degree spiraling that results in spiraling of aorticopulmonary septum when the ridges fuse - this divides the bulbus cordis into 2 arterial channels: ascending aorta and pulmonary trunk

Question 85

What 3 major tissue structures are required to separate the right and left ventricle?

Answer 85

Right bulbar ridge
Left bulbar ridge
Endocardial cushion

Question 86

How does the interventricular foramen eventually close

Answer 86

Bulbar ridges of IV septum fuse with endocardial cushions

Question 87

IV septal defects most frequently occur in the ____ portion of the septum

Answer 87

Membranous

Question 88

Why are IV septal defects associated with left to right acyanotic shunting? What symptoms are seen?

Answer 88

Because pressure is higher in left ventricle

Right ventricular hypertrophy, pulmonary hypertension, dyspena, cardiac failure in infancy

Question 89

What condition develops if septation of outflow tract by truncoconal ridges is asymmetricl, narrowing either the aorta or pulmonary artery?

Answer 89

Aortic or pulmonary stenosis

Question 90

What is the root cause of tetralogy of fallot?

Answer 90

Abnormal NCC migration - division of truncus arteriosus is unequal and pulmonary trunk is stenotic

Question 91

What are the characteristics of tetralogy of fallot?

Answer 91

PROVE mnemonic

Pulmonary stenosis, right ventricular hypertrophy, overriding aorta, ventricular septal defect

Question 92

What is the most common single cause of cyanotic heart disease in neonates?

Answer 92

Transposition of great vessels

Question 93

Characteristics of transposition of great arteries pathology

Answer 93

Failure of IV septum to form = 3 chambered heart

Atria empty through common valve or 2 separate AV valves into single ventricular chamber; aorta and pulm trunk arise from ventricle

Question 94

What type of defect always accompanies persistent truncus arteriosus?

Answer 94

VSD

Question 95

Describe persistent truncus arteriosus

Answer 95

Failure of truncal ridges and aorticopulmonary septum to develop normally and divide the truncus arteriosus into aorta and pulm trunk

So there is a single arterial trunk that arises from the heart and supplies the systemic, pulm, and coronary circulation

[caused by developmental arrest of outflow tract, semilunar valves, and aortic sac during days 31-32]

Question 96

What malalignment defect causes both the aorta and pulm trunk to exit via the right ventricle due to insufficient shifting of AV septum or cardiac looping?

Answer 96

Double outlet right ventricle

Question 97

The ductus arteriosus is a fetal structure that later becomes what?

Answer 97

Ligamentum arteriosum

Question 98

The foramen ovale is a fetal structure that later becomes what?

Answer 98

Fossa ovalis

Question 99

The ductus venosus is a fetal structure that later becomes what?

Answer 99

Ligamentum venosum

Question 100

The umbilical vein is a fetal structure that later becomes what?

Answer 100

Ligamentum teres

Question 101

The umbilical arteries are fetal structures that later become what?

Answer 101

Medial umbilical ligaments