Cardiac Embryology

Question 1

Fertilization occurs in

Answer 1

the ampullary region of the fallopian tube

Question 2

Sperm + Oocyte

Answer 2

= Zygote  undergoes cell divisions

Question 3

Reaches 2 cell stage about

Answer 3

30 hours post fertilization

Question 4

4 cell stage at about

Answer 4

40 hours post fertilization

Question 5

12-16 cell stage at about

Answer 5

72 hours (3 days)

Question 6

Cells are called

Answer 6

Blastomeres

Question 7

Cells are loosely arranged until

Answer 7

8 cell stage

Question 8

cells have maximized contact with each other after

Answer 8

3rd cleavage

Question 9

compaction

Answer 9

Cells separate into inner and outer cells.

Question 10

Morula

Answer 10

16 cell stage

Question 11

morula has defined

Answer 11

inner and outer cells

Question 12

Inner cells =

Answer 12

inner cell mass (will become the embryo)

Question 13

outer cells=

Answer 13

outer cell mass (will become the trophoblasts, which will be the placenta)

Question 14

called blastocyst when

Answer 14

Fluid penetrates into the intercellular spaces of Inner
Cell Mass.  Spaces become a single cavity
 Blastocele

Question 15

Blastocyst is comprised of

Answer 15

Trophoblast – outer covering
 Formed from cells of the outer cell mass.
 Cells flatten and eventually form the epithelial wall of the blastocyst
Blastocele – Internal fluid filled space
 Embryoblast – Inner cell mass
 Located at one pole

Question 16

Trophoblast and part of inner cell mass will become

Answer 16

the placenta

Question 17

Rest of inner cell mass will become

Answer 17

the embryo

Question 18

Blastocyst remains free in the uterus for

Answer 18

2 days

Question 19

implantation occurs

Answer 19

Around day 6 (after fertilization)

Question 20

Trophoblastic cells over the embryoblast pole penetrate

Answer 20

between the epithelial cells of the uterine wall.

Question 21

Blastocyst attaches to

Answer 21

uterine epithelium, and subsequently the endometrium

Question 22

blastocyst oriented so

Answer 22

inner cell mass is near the endometrium

Question 23

Blastocyst is partially embedded at

Answer 23

day 8

Question 24

at day 8 blastocyst differentiates into

Answer 24

Syncytiotrophoblast – multi-nucleated, outer zone  no cell boundries
 Cytotrophoblast – mononucleated cells, inner layer  distinctcells
 Both layers become part of the chorion (one of the fetal membranes)

Question 25

ICM differentiates into

Answer 25

Hypoblastlayer  Layer of small cuboidal cells adjacent to the blastocyst cavity
 Epiblastlayer  Layer of high columnar cells adjacent to amniotic cavity

Question 26

blastocyst completely embedded at

Answer 26

Day 11-12

Question 27

day 11-12 cells of Syncytiotrophoblast

Answer 27

penetrate deeper into endothelial lining of maternal capillaries

Question 28

Syncytiotrophoblast capillaries are

Answer 28

congested and dilated
 Called Sinusoids
 Causes blood to flow through the trophoblastic system
 Beginning of the uteroplacental circulation

Question 29

Cytotrophoblast proliferates to form:

Answer 29

Amnion
 Thin Protective membrane that surrounds the developing embryo.
 AmnioticCavity  Space, eventually filled with fluid.

Question 30

Gastrulation – starts at

Answer 30

day 8

Question 31

Gastrulation is the process for

Answer 31

establishing 3 germ layers
 ICM differentiates.  Ectoderm  Endoderm  Mesoderm These are the major embryonic tissues from which all tissues and organs of the body develop.

Question 32

gastrulation starts with the formation of

Answer 32

he primitive streak on the epiblast

 By day 15-16, it is clearly visible as a narrow groove.

Question 33

which cells migrate to primitive streak

Answer 33

Cells of the epiblast

Question 34

source of germ layers

Answer 34

epiblast

Question 35

Inner Cell Mass now called an______ as amniotic cavity starts to form

Answer 35

Embryonic Disc

Question 36

Layer of cells of the inner cell mass closest to the amniotic cavity.

Answer 36

ectoderm

Question 37

layers of inner cell mass that borders the blastocele.

Answer 37

endoderm

Question 38

Lies inbetween the ectoderm and endoderm.

Answer 38

Mesoderm

Question 39

Ectoderm Becomes:

Answer 39

Skin, teeth, mouth glands, nervous system, some

endocrine glands.

Question 40

Endoderm Becomes:

Answer 40

Epithelium of digestive tract, respiratory system, bladder, vagina, urethra

Question 41

Mesoderm Becomes:

Answer 41

All connective tissue, the muscular, skeletal, lymphatic, and circulatory systems.

Question 42

Cardiovascular System appears in the middle of the

Answer 42

3rd week. At this point the embryo is no longer able to survive via diffusion alone.

Question 43

The Cardiovascular System reaches

Answer 43

a functional state long before any of the other systems

Question 44

Vascular system develops from a

Answer 44

simple symmetrical plexus, into an asymmetrical complex system of arteries, veins and capillaries.

Question 45

The size of the embryonic heart in relation to the size of the embryo

Answer 45

is enormous compared to an adult heart in an adult size body.

Question 46

progenitor heart cells Lie in

Answer 46

Epiblast. Adjacent to the cranial end of the primitive streak
 Move through the streak and into the splanchnic layer of the mesoderm and form around day 16-18

Question 47

Primitive Heart Field (PHF)

Answer 47

horse-shoe shaped cluster of cells

Question 48

PHF specified on both sides to become the

Answer 48

Atria, LV, RV, Conus Cordis and Truncus Arteriosus

Question 49

secondary ear field consists of and shows up when

Answer 49

Conus and Truncus come from the Secondary Heart field and show up around Day 20-21

Question 50

blood island and cardiac myoblasts come from

Answer 50

Progenitor Heart Cells

Question 51

Blood islands unite and form

Answer 51

a horse-shoe shaped tube  Endothelial cell lined
 Surrounded by myoblasts. More blood islands appear bilaterally, parallel and close
to the midline.  Will form dorsal aortas.

Question 52

Intraembryonic Celom (Body Cavity) Formed by the joining

Answer 52

small (initially isolated) spaces

which appear in the lateral mesoderm

Question 53

Intraembryonic Celom (Body Cavity Bilateral cavities extend

Answer 53

cranially and fuse with each other forming a horseshoe-shaped cavity
 Eventually becomes the pericardial cavity

Question 54

Heart development starts at the and occurs in

Answer 54

end of the 3rd week of gestation. the ventral region of the embryo, inferior to the foregut.

Question 55

Scattered masses of angiogenic cells appear

Answer 55

in the mesenchyme derived from PHF

Question 56

blood islands occur in

Answer 56

ventral (in front of) the intraembryonic celom.

Question 57

Anterior part of the celom will develop

Answer 57

the pericardial cavity.

Question 58

Angiogenic cells form

Answer 58

clusters (Blood Islands) which increase in size and number. Acquire a lumen, unite and form a plexus of blood vessels

Question 59

, bilateral endocardial tubes develop from

Answer 59

plexus of blood vessels from blood islands

Question 60

The Endocardial tubes unite to form

Answer 60

a common tube

 Primitive Heart Tube

Question 61

the single heart tube starts to beat.

Answer 61

By Day 21-22

Question 62

Cells are added from the secondary heart field to the

Answer 62

cranial end of the tube

Question 63

If lengthening doesn’t occur, where outflow tract defects

come from

Answer 63

DORT, VSD, TOF, PA, PS

Question 64

Meanwhile, Other blood islands appear inferior to the endocardial tubes
 Eventually give rise to ______ and give rise to ______

Answer 64

dorsal aortas.  Will connect with the endocardial tubes  Establish the arterial end of the heart

Question 65

Other end of the future endocardial tubes will make contact with the

Answer 65

vitelline veins (via the sinus venosus) and establish a venous pole.

Question 66

newly formed heart tube starts to bend on day

Answer 66

23

Question 67

Cephalic part bends

Answer 67

ventrally, caudally, and to the right.

Question 68

Caudal part bends

Answer 68

dorsocranially, and to the left

Question 69

attaches to dorsal wall by

Answer 69

mesoderm

Question 70

Becomes the common outflow tract

Answer 70

Dorsal Aorta and Aortic Sac

Question 71

primitive RV

Answer 71

bulbis cordis

Question 72

primitive LV

Answer 72

primitive ventricle

Question 73

Divides atria from ventricles

Answer 73

atrioventricular sulcus

Question 74

Will form common atria

Answer 74

Paired Primitive Atria

Question 75

Eventually forms the coronary sinus and oblique vein of the LA

Answer 75

sinus venosus

Question 76

Heart undergoes a series of folding that leads to the

formation of the bulboventricular loop during

Answer 76

day 23- 28

Question 77

proximal 1/3 Bulbus Cordis Will form

Answer 77

trabeculated part of RV

Question 78

Junction between the ventricle and the bulbus cordis externally is the

Answer 78

bulboventricular sulcus

Question 79

bulboventricular sulcus

Answer 79

aka primary interventricular foramen

Question 80

Atrial portions of the Heart Tube dilate  Form

Answer 80

common atrium

Question 81

Atrium “climbs up” the ______ and takes the

Answer 81

dorsal pericardial wall  TakesAtrioventricularjunctionwithit

Question 82

Diverticula appear

Answer 82

Along front of endocardial tube

 Just proximally and distal to the primary interventricular foramen

Question 83

These diverticula expand

Answer 83

the capacity of the heart. Give them the densely trabeculated appearance

Question 84

The trabeculae inside the heart leads to

Answer 84

valves, chordeae tendinae, papillary muscles, and atrioventricular valves.

Question 85

Abnormalities in Cardiac looping, is responsible for cardiac defects

Answer 85

Ventricular inversion (corrected transposition), juxtaposition of the atrial appendages, and Double outlet right ventricle.

Question 86

the sinus venosus receives blood from the right and left sinus horns during

Answer 86

the 4th week

Question 87

each horn of the sinus venosus receives blood from three veins

Answer 87

Vitelline vein  Umbilicalvein  Common Cardinal vein

Question 88

Communication between sinus and atrium is

Answer 88

wide open

Question 89

Communication between sinus and atrium will eventually______ and is caused by

Answer 89

shift to the right. Caused by shift in blood in venous system  Occurs at about 4-5 weeks.

Question 90

Obliteration of the right umbilical vein and left vitelline vein  Occurs

Answer 90

5th week. Left sinus horn loses importance

Question 91

At week 10 the left common cardinal vein become and all that remains

Answer 91

obliterated

 All that remains of the left sinus horn is the oblique vein of the left atrium and the coronary sinus

Question 92

Shunt of blood left to right enlarges

Answer 92

right sinus horn

Question 93

Right horn and vein are the only communication

Answer 93

between the original sinus venosus and the atrium

 Forms the smooth walled part of the right atrium.

Question 94

Sinuatrial orifice (entrance to the common atrium) is flanked on each side

Answer 94

by valvular folds.

Question 95

left venous valves fuse with

Answer 95

the atrial septum

Question 96

Superior part of the right venous valve

Answer 96

disappears

Question 97

Inferior part of the right venous valve becomes

Answer 97

he valve of the inferior vena cava and the valve of the coronary sinus.

Question 98

During atrial septation, the left atrium begins

Answer 98

to form sprouts of the pulmonary veins that grow towards the lungs.

Question 99

Cardiac Septation

 Starts at _____ and lasts

Answer 99

Day 27

 Lasts 10 days (Day 27-37)

Question 100

the embryo grows from _____ to _______ during septation

Answer 100

5mm to 16-17mm

Question 101

During ventricular development, 2 important processes occur simultaneously, that result in the “chamberization” of the ventricles

Answer 101

Division of the AV Canal into a Right and Left AV orifice via the endocardial cushions
 VentricularSeptation

Question 102

Endocardial Cushions

 Develop in the

Answer 102

Atrioventricular and Conotruncal regions

Question 103

endocardial cushions assist in the formation

Answer 103

of the atrial and ventricular (membranous) septa, AV Canals, Valves, Aortic and Pulmonary Channels.

Question 104

Atrioventricular endocardial cushions appear at the AV Canal.

Answer 104

at the end of week 4

Question 105

The role of the endocardial cushions is to:

Answer 105

Form a barrier between the atria and ventricles  Right –left division of the canal
 The resulting canals are eventually occupied by the mitral and tricuspid valves.

Question 106

End of week 4

 The ventricular septum is formed by the

Answer 106

outgrowth of the muscular ridge at the interventricular foramen.

Question 107

he ventricular septum grows upward from the

Answer 107

apex of the heart to the base of the heart

Question 108

Interventricular foramen is the space above

Answer 108

the membranous septum

 Shrinks when the conus septum is complete

Question 109

Outgrowth of tissue from the endocardial cushion along the top of the muscular interventricular septum

Answer 109

closes the foramen

 Fuses with the abutting part of the conus septum.

Question 110

he paired atria fuse together for form a common atrium at day

Answer 110

27-28

Question 111

Atrial septation occurs ________ with ventricular septation

Answer 111

simultaneously and in cooperation

Question 112

Atrial septation also lasts approximately

Answer 112

10 days.

Question 113

Sickle-shaped crest grows from

Answer 113

the roof of the common atrium

Question 114

Sickle-shaped crest is first part of

Answer 114

Septum Primum

Question 115

septum primum extends

Answer 115

toward the endocardial cushions in the AV Canal.

Question 116

septum primum does not connect to

Answer 116

endocardial cushions. Leaves a space called the Ostium Primum

Question 117

Ostium Primum

 Formed by the opening between

Answer 117

he lower rim of the septum primum and the endocaridal cushions.

Question 118

Extensions of the endocardial cushions grow

Answer 118

along the edge of the septum primum, closing the Ostium Primum

Question 119

Before closure, Apoptosis (cell death) makes perforations in the ________ and forms the

Answer 119

upper part of the septum primum

 FormstheOstiumSecundum  Allows for blood flow to shunt from the right to the left

Question 120

Lumen of the Right Atrium expands (result of incorporation of the sinus horns)
 New crest-shaped fold appears called

Answer 120

SeptumSecundum

Question 121

septum secundum extends

Answer 121

downward to the septum in the AV canal

 Overlaps with the Ostium Secundum  RemainingholeiscalledtheForamenOvale

Question 122

By the 5th week opposing ridges

Answer 122

appear in the truncus

Question 123

Both cushions grow toward

Answer 123

the aortic sac

Question 124

cushions form

Answer 124

aorticopulmonary septum  Divides the truncus into aortic and pulmonary channels.

Question 125

Similar cushions appear along the right dorsal and left ventral walls of

Answer 125

conus cordis. Grow toward each other and distally  Unite with the truncus septum. Divides the conus into anterolateral portion (RV outflow) and posteromedial portion (LV outflow)

Question 126

Outflow Tract Septation – Day 29

Answer 126

Partitioning of the outflow tract
 Truncus Arteriosus – Aorta  Conus Cordis – Pulmonary
Artery
 Createdbyaseptumthat forms in the outflow tract from these swellings

Question 127

Each AV orifice is surrounded by

Answer 127

local proliferations of
mesenchymal tissue. vBlood hollows out and thins the tissue on the ventricular surface
 Valves form
 Remain attached to ventricular wall by muscular cords  Muscular tissue degenerates and is replaced by connective tissue over time.

Question 128

Semilunar Valves

Answer 128

Small tubercles found on main truncus swellings  Tubercles hollow out on the upper surface

Question 129

Day 1-2:

Answer 129

fertilization

Question 130

day 6-7

Answer 130

Implantation of blastocyst into uterine wall

Question 131

day 16-20

Answer 131

Appearance of Celom and Blood Islands

Question 132

Day 20

Answer 132

Endocardial tubes are present and begin fusing

Question 133

day 22

Answer 133

Main heart tube begins to beat

Question 134

day 23-38

Answer 134

Heart Folding

Question 135

day 27-37

Answer 135

Atrial and Ventricular septation and development

Question 136

Day 29

Answer 136

Outflow tract septation

Question 137

Day 55

Answer 137

complete