Chapter 20: The Heart

Question 1

The heart

Answer 1

A hollow muscular pumping organ within the thoracic cavity.

It is a dual pump:
Pulmonary circuit - the right side which pumps blood to the lungs.
Systemic circuit - the left side which pumps blood to the rest of the body.

Question 2

Arteries

Answer 2

Vessels which take blood away from the heart

Mostly carries O2 rich blood

Question 3

Veins

Answer 3

Vessels which take blood towards the heart.

Most carries deoxygenated blood

Question 4

Capillaries

Answer 4

Microscopic vessels which exchanges materials between the blood and tissues.

Question 5

What is the heart enclosed by

Answer 5

Pericardium:

1. Fibrous pericardium - dense CT
2. Serous pericardium - parietal (lines the cavity wall) and visceral (lines the surface of the heart)

Question 6

What is visceral pericardium also referred as?

Answer 6

Epicardium

Question 7

What are the 3 layers of the hearts wall?

Answer 7

1. Outer epicardium - simple squamous epithelium and CT
2. Middle myocardium - consists of cardiac muscle arrange in bundles
3. Inner endocardium - thin layer of simple squamous cells and thin layer of CT.

Question 8

What are the 4 chambers of the heart?

Answer 8

2 atriums - the 2 uppermost blood collecting chambers. Has thin walls.

2 ventricles - the 2 lowermost blood pumping chambers. Has thick walls.

Question 9

Why is the left ventricle wall 3x as thick as the right ventricle wall?

Answer 9

A thicker wall means a more powerful pump, and blood has to travel further to the rest of the body from the left ventricle.

The right ventricle just pumps blood a short distance to the lungs.

Question 10

Heart valves

Answer 10

Consists of 2 or 3 fibrous flaps of tissue (cusps) covered with endocardium.

These valves keep the one-way flow of blood (prevent back flow)

Question 11

Atrioventricular (AV) valves

Answer 11

Located between an atrium and ventricle.

2 of them:
1. Tricuspid valve - located between the right atrium and right ventricle (contains 3 flaps)

2. Bicuspid valve - located between the left atrium and left ventricle (contains 2 flaps)

Question 12

Chordae tendineae

Answer 12

Papillary muscles which connect the edges of the AV valves to the ventricle wall

Question 13

Semilunar (SL) valves

Answer 13

1. Pulmonary SL valve - located between the right ventricle and pulmonary trunk
2. Aortic SL valve - located between the left ventricle and aorta

Question 14

What is the pathway of pulmonary circulation?

Answer 14

Right atrium -> right ventricle -> pulmonary trunk -> pulmonary arteries -> lung capillaries (blood released CO2 and picke up O2) -> pulmonary veins -> left atrium

Question 15

What is the pathway of systematic circulation of blood

Answer 15

Left atrium -> left ventricle -> aorta -> arteries in body -> body capillaries (blood releases O2 and picks up CO2) -> veins in body -> superior or inferior vena cava -> right atrium

Question 16

Coronary circulation and pathway

Answer 16

Functions to supply blood to the myocardium

Pathway:
Aorta -> coronary arteries -> myocardium capillaries (blood releases O2 and picks up CO2) -> coronary veins -> coronary sinus -> right atrium

Question 17

What causes a heart attack?

Answer 17

Prolonged blockage of a coronary vessel, causing the death of a myocardium region.

Question 18

Structure of cardiac muscle cells

Answer 18

Arranged as myofiliments with actin and myosin. Their mitochondria are larger than normal to resist fatigue.

Contain:
- myoglobin which stores O2
- Intercalated discs which have desmosomes and gap junctions

Question 19

Desmosomes

Answer 19

Physical connection

Will anchor cells, so they don’t separate one contracting.

Question 20

Gap junctions

Answer 20

Electrical connection

Allow ions to pass freely from cell to cell so that cells can contract as a coordinated unit.

Question 21

Autorhythmic fibres

Answer 21

Specialized cardiac muscle cells that are self excitable and initiate an electrical impulse.

This impulse spreads to the contractile fibres to make an action potential and contract.

Question 22

What is the pacemaker of the heart?

Answer 22

The sinoatrial node

(SA node)

Question 23

Summary of what happens to noncontractile cells in the SA node

Answer 23

1. Cells in the SA node randomly depolarize from -60mV to the threshold -40mV (this is pacemaker potential) due to Na+ inflow.
2. A second depolarization occurs due to Ca2+ inflow, an action potential can now occur.
3. Action potential spreads to contractile cells to contract the atria.
4. Noncontractile cells repolarize once Na+ and Ca2+ channels close and K+ channels open.

Question 24

Atrioventricular node

Answer 24

Located between the atria

Function to delay the spread of action potentials by 0.1 seconds to allow atria to finish contraction so the ventricles have time to fill with blood.

Question 25

Purkinje fibres

Answer 25

Extend into the ventricular walls and spread an action potential throughout the ventricular myocardium so that the ventricles can contract

Question 26

What is an artificial pacemaker?

Answer 26

A device surgically implanted to send small electrical currents to stimulate the heart and contract.

Used by those who have a damaged SA node

Question 27

What is the electrical pathway through the heart?

Answer 27

1. Sinoatrial node
2. Atrioventricular node
3. Bundle of His
4. Left/right branches
5. Purkinje fibres

Question 28

Summary of what happens to contractile cells

Answer 28

1. Action potential from noncontractile cells open Na+ channels to depolarize membrane, then Ca2+ channels after to prolong it. (plateau phase)
2. an action potential is generated to cause muscle contraction, and it has a long refractory period.
3. Repolarization by opening K+ channels

Question 29

What do the P wave, QRS complex, and T wave represent?

Answer 29

P wave - depolarization of the atria

QRS complex - depolarization of the ventricles

T wave - repolarization of the ventricles

Question 30

Lubb

Answer 30

A heart sound created by the closure of the atrial ventricular valves at the start of ventricular contraction.

Question 31

Dupp

Answer 31

A heart sound created by closure of the semi lunar valves during ventricular relaxation