1 - Introduction to CVS

Question 1

How do single-celled organisms get oxygen and nutrients from their environment?

Answer 1

By diffusion across the cell membrane

Question 2

Why do large multi-cellular organisms need a cardiovascular system?

Answer 2

For oxygen and nutrients to diffuse, there needs to be a system for these substances to get close to the cells

Question 3

What is the structure of a capillary?

Answer 3

Single layer of endothelial cells surrounded by basal lamina

Question 4

What is the function of the cardiovascular system?

Answer 4

• Take oxygen and nutrients to the tissue capillaries so diffusion can take place and pick up carbon dioxide and waste products for excretion
• Cellular signalling via hormones
• Protection of the body from pathogens via the immune system and protection from blood loss via clotting
• Homeostasis of pH, temperature and water balance

Question 5

Why are coronary vessels required when the heart already contains blood in it’s chambers?

Answer 5

• The distance of cells in the muscle wall from the source of oxygen and nutrients is too large for diffusion to take place
• Only the left side of the heart carries oxygenated blood

Question 6

Infarcted tissue is caused by a ………. in a coronary vessel. In pathology, the tissue will appear ………….

Answer 6

Blockage

White (scar tissue)

Question 7

The conorary arteries branch from the ………

Answer 7

Aorta

Question 8

In the anatomical position, the ……… ………… forms the anterior surface of the heart

Answer 8

Right ventricle

Question 9

What are the two main branches of the coronary arteries that leave the aorta?

Answer 9

• Right coronary artery

- Left coronary artery

Question 10

What two branches come off of the left coronary artery?

Answer 10

• Anterior interventricular (left anterior descending)

- Circumflex

Question 11

Which of the coronary arteries is most commonly blocked in a myocardial infarction?

Answer 11

Anterior interventricular (left anterior descending)

Question 12

Coronary arteries have few anastomoses, what does this mean?

Answer 12

• They are end arteries and don’t link together very much

- Anastomoses allow blood supply to continue even if one pathway was blocked - coronary arteries cannot do this

Question 13

Describe the location of the apex of the heart from the surface anatomy.

Answer 13

• 5th intercostal space

- mid-clavicular line

Question 14

Where is the base of the heart?

Answer 14

• At the superior border, where the great vessels emerge

Question 15

Where is the right border of the heart, relative to the surface anatomy?

Answer 15

~1cm lateral (right) from the sternum along the 3rd costal cartilage

Question 16

Where is the right border of the heart, relative to the surface anatomy?

Answer 16

~1cm lateral (right) from the sternum along the 3rd costal cartilage

Question 17

Where is the right inferior border of the heart, relative to the surface anatomy?

Answer 17

~1cm lateral (right) from the sternum along the 6th costal cartilage

Question 18

The heart lies within a sac called the ……………

Answer 18

Pericardium

Question 19

What are the functions of the pericardium?

Answer 19

• Protection for the heart and great vessels
• Lubrication to reduce friction between the heart and the surrounding structures
• Fixed cavity volume prevents overfilling of the heart
• Mesothelial cells lining the pericardial cavity involved in antigen presentation, inflammation and tissue repair, coagulation and fibrinolysis

Question 20

What are the three layers of the pericardium (outer to inner)?

Answer 20

• Fibrous pericardium
• Parietal pericardium
• Visceral pericardium

Question 21

The nerves that pass through either side of the pericardium to supply the pericardium and the diaphragm below are the ………… …………

Answer 21

Phrenic nerves

Question 22

Deeper than the pericardium, what can be found lining the heart?

Answer 22

Epicardial fat

Question 23

The visceral layer of the pericardium is also called the …………..

Answer 23

Epicardium

Question 24

The heart muscle layer is called the ……………., the chambers are lined internally with …………..

Answer 24

Myocardium

Endocardium

Question 25

Where is the transverse pericardial sinus?

Answer 25

Hole created posterior to the ascending aorta and pulmonary trunk (artery)

Question 26

Where is the oblique sinus?

Answer 26

The hole created by the four Pulmonary Veins and fibrous pericardium, on the Posterior Surface of the heart

Question 27

The coronary arteries supply the vascular beds of the cardiac muscle, they come together to form the cardiac veins. These drain into the ………… ……….. on the posterior surface of the heart which returns the blood to the ………. ………..

Answer 27

Coronary sinus

Right atrium

Question 28

How many litres of blood per minute must the cardiovascular system deliver to the body?

Answer 28

Between 5 and 25 litres per minute

Question 29

How many litres of blood per minute must the cardiovascular system deliver to the brain?

Answer 29

750 ml per minute at all times

Question 30

Other than the brain, what 2 other organs must have constant blood flow at all times?

Answer 30

• Heart

- Kidneys

Question 31

The cardiovascular system has capacitance to cope with immediate changes in cardiac output. Where is this store of blood?

Answer 31

In the veins

Question 32

The heart is ….. pump(s) operating in …………

Answer 32

2, series

Question 33

What are the four valves of the heart?

Answer 33

• Tricuspid valve
• Pulmonary valve
• Mitral valve
• Aortic valve

Question 34

Define:

a) diastole

b) systole

Answer 34

a) Diastole - relaxation and filling of the ventricles

b) Systole - contraction and ejection of blood from the ventricles

Question 35

What types of connective tissue form the fibrous pericardium?

Answer 35

Dense and loose connective tissue

Question 36

What cell type makes up the parietal and visceral serous pericardium?

Answer 36

Simple squamous epithelium

Question 37

Where is the phrenic nerve origin?

Answer 37

C3-C5

Question 38

What is cardiac tamponade?

Answer 38

• Accumulation of fluid, known as pericardial effusion, within the pericardial cavity
• Chambers become compressed due to the pressure, compromising cardiac output

Question 39

What is pericarditis?

Answer 39

• Inflammation of the pericardium
• Many reasons, including bacterial infection and myocardial infarction
• Chest pain and referred pain (due to compression of phrenic nerve - pain in shoulder)
• Can cause acute cardiac tamponade due to an accumulation of fluid in the pericardial cavity

Question 40

What is the function of the auricles of the heart?

Answer 40

Atrial appendages – muscular pouch that acts to increase the capacity of the atrium

Question 41

What muscles are found on the atrial walls?

Answer 41

Pectinate muscles

Question 42

What is the name of the small oval-shaped depression in the septal wall of the right atrium? What is it’s function?

Answer 42

Fossa ovalis

• Remnant of the foramen ovale in the foetal heart, which allows blood to bypass the lungs
• It closes once the newborn takes its first breath

Question 43

What is the most common cause of an atrial spetum defect? How is this treated?

Answer 43

Patent foramen ovale after birth

• LA pressure > RA pressure so blood shunts to the right
• Right ventricular overload, leading to pulmonary hypertension, right ventricular hypertrophy and right heart failure
• Treated by surgical closure of the foramen ovale

Question 44

The muscular elevations in the ventricular wall are called the …………. ………….

Answer 44

trabeculae carnae

Question 45

The leaflets of the atrioventricular valves are attached to the ventricular wall by …………. muscles and ………….. ……………

Answer 45

Papillary

Chordae tendineae

Question 46

The outflow portion of the left ventricle is known as the ………. ………….

Answer 46

Aortic vestibule

Question 47

Tetralogy of Fallot is a congenital heart disease, comprising four abnormalities as a result of a single development defect. What are the four abnormalities?

Answer 47

• Ventricular septal defect
• Overriding aorta (where the aortic valve is positioned directly over the VSD)
• Pulmonary valve stenosis
• Right ventricular hypertrophy

Stenosis of the pulmonary valve increases the force needed to pump blood through it, resulting in right ventricular hypertrophy. The pressure changes result in blood moving from the right ventricle to the left ventricle through the VSD. The position of the aortic valve results in deoxygenated blood entering the aorta.