Cardiovascular- Heart (general info)

Question 1

Tissues of the heart

Answer 1

Pericardium
Epicardium
myocardium
Endocardium

Question 2

What is the pericardium?

Answer 2

fibrous protective sac enclosing heart

Question 3

What is epicardium?

Answer 3

inner layer of pericardium

Question 4

What is myocardium?

Answer 4

heart muscle, the major portion of the heart

Question 5

What is endocardium?

Answer 5

smooth lining of the inner surface and cavities of the heart

Question 6

4 chambers of the heart

Answer 6

R and L atriums

R and L ventricles

Question 7

What is the R atrium?

Answer 7

receives blood from systemic circulation, from the superior and inferior vena cavae

Question 8

What is the R ventricle?

Answer 8

receives blood from the RA and pumps blood via the pulmonary artery to the lungs for oxygenation; the low pressure pulmonary pump

Question 9

What is the L atrium?

Answer 9

receives oxygenated blood from the lungs and the 4 pulmonary veins

Question 10

What is the L ventricle?

Answer 10

receives blood from the LA and pumps blood via the aorta throughout the entire systemic circulation; the high pressure systemic pump. the walls of the LV are thicker and stronger than the RV and form most of the L side and the apex of the heart.

Question 11

Name the valves. Why are the important?

Answer 11

Provide 1 way flow of blood
Atrioventricular valves: tricuspid valve and bicuspid valve
Semilunar Valves: pulmonary valve and aorta valve

Question 12

Info about Atrioventricular valves

Answer 12

Prevent backflow of blood into the atria during ventricular systole
anchored by the chordae tendineae to papillary muscles
valves close when ventricular walls contract

Question 13

What is the tricuspid valve?

Answer 13

three cusp or leaflets

right heart valve

Question 14

What is the bicuspid valve?

Answer 14

also called the mitral valve
2 cusps or leaflets
left heart valve

Question 15

Info about semilunar valves

Answer 15

Prevents backflow of blood from aorta and pulmonary arteries in ventricles during diastole

Question 16

Function of pulmonary valve

Answer 16

prevents R backflow

Question 17

Function of aortic valve

Answer 17

prevents L back flow

Question 18

4 components of cardiac cycle

Answer 18

1- The rhythmic pumping action of the heart
2- Systole
3- Diastole
4- Atrial contraction

Question 19

Explain systole

Answer 19

The period of ventricular contraction
End systolic volume is the amount of blood in the ventricles after systole
About 50 mL

Question 20

Explain Diastole

Answer 20

The period of ventricular relaxation and filling of blood
End-diastolic volume is the amount of blood in the ventricles after diastole
About 120 mL

Question 21

Explain atrial contraction (atrial kick)

Answer 21

Occurs during the last third of diastole and completes ventricular filling, comprising last 20%-30% of end diastole volume

Question 22

2 points of note: coronary circulation

Answer 22

1- Distribution of blood supply is variable from individual to individual
2- Myocardial oxygen supply and myocardial oxygen demand (MVO2) should be in balance in order to maintain a given activity level without ischemia

Question 23

General info about coronary arteries

Answer 23

arise directly aorta near aortic valve; blood circulates to myocardium during diastole

Question 24

Info about R coronary artery

Answer 24

Supplie R atrium. most of R ventricle, and in most individuals, the inferior wall of L ventricle, AV node and bundle of His
Supplies SA node 60% of the time

Question 25

Info about L coronary artery (LCA)

Answer 25

Supplies most of the L ventricle

2 major divisions: L anterior descending (LAD) and Circumflex

Question 26

Info about L anterior descending

Answer 26

Supplies the L ventricle and the interventricular septum, and in most individuals, the inferior areas of the apex
It may also give off branches to the R ventricle

Question 27

Info about circumflex (LCx)

Answer 27

Supplies blood to the lateral and inferior walls of the L ventricle and portions of the L atrium
Supplies SA node 40% of the time

Question 28

Info about coronary veins

Answer 28

Parallel arterial system

The coronary sinus receives venous blood from the heart and empties into the R atrium

Question 29

What is the conduction system of the heart?

Answer 29

There are specialized conduction tissues that allow rapid transmission of electrical impulses throughout the myocardium (normal sinus rhythm, NSR)

Question 30

Structures of the conduction system

Answer 30

SA node
AV node
Bundle of His
Purkinje tissue

Question 31

Explain the Sinoatrial node

Answer 31

1- Located at junction of superior vena cava and R atrium
2- Main pace maker of the heart, initiates the impulse at rate of 60-100 beats per minute
3- Has sympathetic and parasympathetic innervation affecting both heart rate and strength of conduction.

Question 32

Explain Atrioventricular node

Answer 32

1-Located at the junction of the R atrium and the R ventricle
2- Has sympathetic and parasympathetic innervation
3- Merges with bundle of His
4- Intrinsic firing rate of 40-60 beats per minute.

Question 33

Explain Purkinje tissue

Answer 33

1- R and L bundle branches of the AV node are located on either side of intraventricular septum
2- Terminate in purkinje fibers, specialized conducting tissue spread throughout the ventricles.

Question 34

2 Points about the conduction system of a normal heart beat

Answer 34

1- Origin is in the SA node; impulse spreads throughout both atria, which contract together
2- Impulse stimulates AV node, is transmitted down the bundle of His to the purkinje fibers; impulse spreads throughout the ventricles, which contract together (atrial kick)

Question 35

3 points about myocardial fibers

Answer 35

1- Muscle tissue: striated muscle fibers with more numerous mitochondria; exhibits rhythmicity of contraction; fibers contract as a functional unit (sliding filament theory of contraction)
2- Myocardial metabolism is essentially aerobic, sustained by continuous O2 delivery from coronary arteries
3- Smooth muscle tissue is found in the walls of blood vessels.

Question 36

What is stroke volume (SV)?

Answer 36

The amount of blood ejected with each myocardial contraction
Normal range is 55-100mL/beat
It is influenced by L ventricular end diastolic volume, contractility, and afterload

Question 37

What is L ventricular end diastolic volume (LVEDV)?

Answer 37

the amount of blood left in the ventricle at the end of diastole,also known as preload. The greater the diastolic filling (preload), the greater the quantity of blood pumped (Frank-Starling Law)

Question 38

What is Frank-Starling Law?

Answer 38

The greater the diastolic filling (preload), the greater the quantity of blood pumped.

Question 39

Define contractility in the context of hemodynamics?

Answer 39

The ability of the ventricle to contract

Question 40

What is afterload?

Answer 40

The force the LV must generate during systole to overcome aortic pressure to open the aortic valve.

Question 41

What is Cardiac Output (CO)?

Answer 41

The amount of blood discharged from the R to the L ventricle per min.
Average adult at rest - normal range is 4-5L per min
Determined by HR x SV = CO

Question 42

How is cardiac index determined?

Answer 42

Cardiac output divided by body surface area

Normal range is 2.5- 3.5 L/min

Question 43

What is L ventricular end diastolic pressure (LVEDP)?

Answer 43

pressure in the L ventricle during diastole

Normal range is 5-12 mm Hg

Question 44

What is ejection fraction?

Answer 44

percentage of blood emptied from ventricle during systole; a clinically useful measure of LV function

Question 45

How is EF calculated?

Answer 45

SV/LVEDV

Question 46

Norms for EF

Answer 46

Normal EF averages >55%

The lower the EF , the more impaired the LV

Question 47

What is atrial filling pressure?

Answer 47

the differences between atrial and venous pressures

Question 48

Factors that affect atrial filling pressure

Answer 48

1- R atrial filling pressure is decreased during strong ventricular contraction, and atrial filling is enhanced
2- R atrial filling pressure is affected by changes in intrathoracic pressure; decreases during inspiration and increases during coughing or forced expiration
3- venous return increases when blood volume expands and decreases during hypovolemic shock

Question 49

Diastolic filling time ______ with increased heart rate and with heart disease.

Answer 49

decreases

Question 50

What does myocardial oxygen demand (MVO2) represent?

Answer 50

The energy cost to the myocardium

* MVO2 increases with activity and with HR and/or BP

Question 51

How is MVO2 measured?

Answer 51

Clinically measured by the product of heart rate and systolic BP, known as the rate pressure produce