Development of the heart and blood vessels

Question 1

Describe the human embryo development (first 3 stages up to a blastocyte)

Answer 1

1. The fertilised egg contains two pronuclei. This is the first sign of fertilisation. The fusing of male and female chromosomes
2. The developing embryo contains 6-8 cells after 3 days.
3. After 5 days the developing embryo is called a blastocytes and contains an approximately 100 cells

Question 2

What are morula, blastocytes and gastrula and describe their structural features?

Answer 2

Morula - solid ball of cells formed from when the zygote undergoes cleavage.

Early Blastocyte - hollow ball of cells that contains a fluid filled cavity. It contains inner cells mass, the blastocyte cavity and trophoblasts.

Late blastocyte - pre-embryo, with the embryonic disk, contains two layers of cells that become embryo proper. It contains the amniotic sac, embryonic disk and yoc sac.

Gastrula - embryo with the three primary germ layers of cells (ectoderm, mesoderm and endoderm.)

Question 3

What do the endoderm, mesoderm and ectoderm form?

Answer 3

Ectoderm - skin (epidermis), brain spinal cord (CNS) and sensory organs

Mesoderm - heart, skeletal muscles, kidneys, urogenital, connective tissue

Endoderm - the lining of the gastrointestinal tract and lungs, pancreas and liver

Question 4

Describe gastrulation and these two structures

Answer 4

The embryonic disk that forms in day 16 forms these two structures and the notochord forms the spinal cord.

Trilaminar embryo

Question 5

Describe the formation of the heart tube

Answer 5

The heart develops from the primitive streak via the blood islands in the splanchnic mesoderm. Day 18.

The blood islands fuse together to form two heart tubes called cardiogenic tubes. Day 20.

The 2 tubes fuse together down the middle to form one heart tube. Day 21.

Further development gives rise to a heart tube with asymmetric openings forming an arterial end and a venous end. Beginning of asymmetry with a bulge to the left. Day 22.

Question 6

What is Situs Inversus?

Answer 6

• If the 3rd image is reversed in the body, all other organs in the body are on the wrong side. This occurs due to asymmetric structure reversing.

Question 7

Describe cardiac looping (day 22 to day 24)

Answer 7

Day 22 - the cells at each end of the heart proliferate making the tube longer. The entire structure is in a confined space so begins to fold upon itself.

Day 23 and 24 - The primitive atrium loops above and behind the primitive ventricle. The process of looping brings primitive areas of the heart into the proper spatial relationship for development

Day 24 - the primitive atrium seen from the front grows outwards and will form the 2 atrium

the future right ventricle will grow downwards at the front.

Question 8

Describe the structure of the heart at day 35 of cardiac looping

Answer 8

On image

At 35 days old, you can see the beating of the heart under ultrasound. We have primitive ventricles and atria.

Question 9

Describe the division of the atrioventricular canal

Answer 9

Day 30

Septum primum - grows along the midsagittal plane separating the atria, apart from a temporary space called the foremen primum.

The left side of the atrium will grow veins to the developing lungs.

The posterior and anterior endocardial cushions will come together separating the atria and the ventricles.

A ventricular septum will eventually grow upwards separating the two ventricles and attach to the endocardial cushions

Question 10

What is Ventricular septal defect and what causes it?

Answer 10

During ventricular contraction some of the blood from the left ventricle leaks into the right ventricle, passes through the lungs and re-enters the left ventricle via the pulmonary veins and left atrium

One cause of ventricular septal defect is the failure of the endocardial cushions to provide an anchor point for the developing ventricular septum

Question 11

What are the 3 effects from ventricular septal defect?

Answer 11

This has 3 main effects:

1. Systemic circulation doesn’t receive all the blood being pumped by the left ventricle.
2. Leakage of blood into the right ventricle elevates right ventricular pressure and volume, causing pulmonary hypertension.
3. Increase the pulmonary pressure, this can damage the lungs and cause fluid to be squeezed out of the capillaries into the alveoli, called pulmonary oedema.

Question 12

Describe the formation of the atrial septa (40 days)

Answer 12

Day 40

Initially, the temporary hole in the septum primum allows that shunt of blood from the right to the left atrium as there is no pulmonary circulation. However, this closes before a second hole called the foremen Secundum opens.

Septum Secundum then forms, a more muscular septum grows down from the roof of the atria lateral to the septum primum. This obscures the place where the foremen primum was.

The endocardial cushions then fuse to form a left and right atrioventricular canal

Question 13

Describe the formation of the atrioventricular septa on day 43

Answer 13

The septum Secundum grows but leaves the foramen ovale, a space permitting the right to the left shunt of blood

The foremen secundum is partially obscured by the septum secundum but the foramen ovale remains to provide an alternative right to left shunt. The foramen primum is closed.

Ventricular septum - the ventricular septum grows up to fuse with the now fused endocardial cushions

Question 14

What happens at birth to the heart?

Answer 14

At birth the lungs become functional, pulmonary vascular pressure decreases and the left atrial pressure exceeds that of the right forcing the septum primum against the septum secundum, functionally closing the foramen ovale. In time the septa eventually fuse. A patent foramen ovale is a common septal defect present to some extent in up to 25% of adults.

Question 15

Give an overview of what is going to happen in the final stage - the division of outflow tract

Answer 15

At this stage there is no separation between the ventricles all the blood from the heart is leaving through one vessel. Eventually they are going to be separated into the left and right sides…the pulmonary artery and the aorta.

Question 16

What does separation of the ventricles results from?

Answer 16

Separation of the ventricles results from the union of the:

1. Conotruncal septum
2. Endocardial cushions
3. Ventricular septum

Question 17

How does the left and right sides actually split?

Answer 17

Conotruncal septum grows as a spiral down the conus arteriosus. It meets with the endocardial cushions and the ventricular septum. The three of them make the final full separation of the left and right sides.

Question 18

What happens if the conotruncal septum is misaligned?

Answer 18

If the conotruncal septum is misaligned, you get differently sized aorta and pulmonary artery; or it won’t meet with the endocardial cushion correctly giving rise to a septal defect. The ultimate complication is the Tetrology of Fallot.

Question 19

1. What is pulmonary stenosis?
2. What is overriding aorta?
3. What is a ventricular septal defect?
4. What is right ventricular hypotrophy?

Answer 19

1. A valve is grown off centre so there is the large aorta and small pulmonary artery, so restricts blood flow to lungs
2. The aortic opening is positioned over a septal defect, so blood from both sides of the heart can mix and some deoxygenated blood is pumped around the body
3. Already know this
4. Right ventricle wall increases in size to deal with obstruction in the pulmonary artery

Question 20

What is the Ductus arteriosus?

Answer 20

• blood vessel connecting the main pulmonary artery to the proximal descending aorta. It allows most of the blood from the right ventricle to bypass the foetal fluid-filled non-functioning lungs. Upon closure at birth, it becomes the ligamentum arteriosum.

Question 21

What is the fossa ovalis?

Answer 21

Once the foramen ovale closes