Exam 1 Lecture 5 (2-7-23) Coronary Perfusion/PDA/Ballon Pumps/Cardiac (Andy's cards)

Question 1

Which heart valve issue would most benefit from an intra-aortic balloon pump?

Answer 1

Mitral valve regurgitation.

An intra-aortic balloon pump will reduce the afterload

Question 2

The degree of backflow for mitral valve regurgitation is dependent on what factors?

Answer 2

1. How compromised are the valves
2. Amount of time spent in systole
3. Amount of afterload that the LV will encounter

Question 3

What HR would be beneficial for someone with mitral valve regurgitation?

Answer 3

80 to 90 bpm.

Remember this is considered slightly tachycardic; normal HR is 72 bpm

Question 4

When does the balloon pump inflate?

When does the balloon pump deflate?

Answer 4

Inflation of the balloon during diastole will act as a pump pushing blood along the aorta.

Deflation of the balloon during systole will produce an artificially low afterload that will reduce the workload of the LV.

Question 5

What is the balloon pump filled with?

Why is it filled with this substance?

Answer 5

Helium

Cheap, Inert, and Non-toxic

Question 6

What are the other benefits of an intra-aortic balloon pump?

Answer 6

↑ coronary perfusion.

Question 7

Why would you not want to use an intra-aortic balloon pump on someone with aortic valve regurgitation?

Answer 7

During diastole as the balloon inflates blood will be pushed back into the LV due to a leaky aortic valve.

Question 8

What is helium a byproduct of?

Answer 8

Oil and gas drilling

Question 9

How does aortic stenosis affect coronary perfusion?

Answer 9

↓ coronary perfusion from ↑ in wall pressure.

Question 10

Which valve issue will CPR have the least effect on?

Answer 10

Aortic Stenosis

Question 11

Which graph represents aortic stenosis?

Answer 11

A

Question 12

Which graph represents aortic regurgitation?
What is the hallmark sign based on the graph?

Answer 12

C

Decreased aortic diastolic pressure with widened pulse pressure.

Question 13

Which graph represents mitral stenosis?

Answer 13

B

Question 14

Which graph represents mitral regurgitation?

Answer 14

D

Question 15

How does left atrial pressure in aortic stenosis compare to a normal heart?

Answer 15

Left atrial pressure will be elevated due to an increase in filling pressure.

Question 16

How will mitral valve stenosis affect the pulmonary circulation and afterload of the right heart?

Answer 16

There will be increased fluid buildup in the pulmonary circulation and increased afterload of the right heart.

Question 17

What are the factors that can affect pulse pressure?

Answer 17

Contractility (high contractility = increased pulse pressure)
Stroke Volume (increase SV = increased pulse pressure)

Question 18

How will you compare the left atrial pressure of mitral valve regurgitation to a normal heart?

Answer 18

There will be retrograde blood flow to the left atrium during systole. This will increase LA pressure.

Question 19

How will you compare the left atrial pressure of mitral valve stenosis to a normal heart?

Answer 19

There will be an increase in left atrial pressure due to the pressure it takes to move blood in the left ventricle.

Question 20

Why can you hear a splitting of the 2nd heart sound?

How can you have exaggerated splitting of the 2nd heart sound?

Answer 20

Aortic and Pulmonary Valves closing at different times.
The aortic valve will typically close first and then the pulmonic valve will close second.

Inspiration will split S2 sounds. Inspiration will affect the right side of the heart and reduce preload and afterload. Inspiration will reduce pulmonary arterial blood pressure.

Question 21

What is a co-dominance coronary artery?

Answer 21

Left circumflex artery and right coronary artery anastomose to form the posterior descending artery.

(43:55)

Question 22

What is the A-wave?
Phase of cardiac cycle:
Mechanical event:

Answer 22

A-Wave
Phase of cardiac cycle: End of diastole (last ⅓ of filling)
Mechanical event: Atrial contraction

Question 23

What is the C-wave?
Phase of cardiac cycle:
Mechanical event:

Answer 23

C-wave
Phase of cardiac cycle: Early systole
Mechanical event: Backwards “bowing” of valves in response to high ventricular pressures

Question 24

What is the X-descent or x-wave?
Phase of cardiac cycle:
Mechanical event:

Answer 24

X-descent or x-wave
Phase of cardiac cycle: Mid systole
Mechanical event: Steep drop in pressure as atria relax and start filling.

Question 25

What is the V-wave?
Phase of cardiac cycle:
Mechanical event:

Answer 25

V-wave
Phase of cardiac cycle: Late systole/ early diastole
Mechanical event: Rapid filling of the atria

Question 26

What is the Y-descent or y-wave?

Answer 26

Atria filling the ventricles in early diastole

Question 27

What is the H-wave or H-plateau?
Phase of cardiac cycle:
Mechanical event:

Answer 27

H-wave or H-plateau
Phase of cardiac cycle: Middle ⅓ of diastole.
Mechanical event: Diastolic plateau (not a lot of blood movement until atria contract to produce the c-wave)

Question 28

An h-plateau occers immediately before the ________ wave.

Answer 28

a-wave

Question 29

The x descent happens after the ________ wave

Answer 29

c-wave

Question 30

The y descent happens after the ______ wave.

Answer 30

v-wave

Question 31

What causes an overdamped waveform on an art line?

Answer 31

There is something stuck (air bubble) in the line between the pressure source (ie: the patient) and the transducer.

Question 32

What causes an underdamped waveform on an art line?

Answer 32

The gain on the amplifier is set too high which will result in a lot of artifacts.

Question 33

The main controller of our venous return is ___________.

Answer 33

Systemic filling pressure
(this will increase CO)

Question 34

Spinal anesthesia will __________ the sympathetic chain.

How will this affect the CO/VR curve?

Answer 34

Inhibit the sympathetic chain

Decrease in CO and VR curve (decrease HR and vascular tone and decrease our P_SF)

Question 35

Change in which parameter will affect CO more:
Heart Pumping activity or Mean Systemic Filling Pressure (P_SF)

Answer 35

Mean Systemic Filling Pressure (P_SF)

Question 36

What is the black dotted line representing?

Answer 36

This is a result of infusing a large amount of volume in the circulatory system. PSF increases, thus increasing CO to appx 13 L/min. The steeper slow also represents a decrease in RVR.

Question 37

Describe what is going in the steep black, grey, and green lines.

Answer 37

An AV fistula will open up an additional pathway for blood to get back into the heart. Blood will move from the arteries to the veins with low resistance which will decrease RVR and increase CO.

Question 38

What three priority tissues did Schmidt mention the body would try to maintain perfusion during shock?

Answer 38

Brain
Heart
Kidneys

Question 39

What percent blood volume will need to be lost to affect cardiac output?

Answer 39

15% blood loss

Arterial pressure will start to be affected at 20% blood loss

Question 40

What is allowing arterial blood pressure to maintain a pressure of 100 mmHg with 20% blood loss?

Answer 40

Sympathetic Nervous System

Question 41

If the SNS is removed from the body, how much blood volume can you lose before it comes fatal?

Answer 41

10-15% blood volume

Question 42

What are the early, middle, and last stages of shock called?

Answer 42

Early stage = non-progressive shock
Middle stage = progressive shock (can still be treated)
Last stage = irreversible shock (game over)

Question 43

What are three problems that can decrease venous return?

Answer 43

• Lack of volume
• Lack of tone
• Obstruction in the VR pathway (clot)

(98:00)

Question 44

What would the effect of bad cardiac output and low blood pressure on coronary perfusion?

Answer 44

Decrease coronary perfusion, which will result in the heart becoming a weaker pump

(99:37)

Question 45

What two causes of cardiogenic shock were discussed in class?

Answer 45

• Myocardial Infarction that causes a decrease in the heart’s pumping ability. (Myocardial failure)
• Heart valve problems, resulting in a decrease in CO.

Question 46

What will hypovolemic shock be attributed to?

Answer 46

Fluid loss

Question 47

What will cause the extensive SVR decrease seen in anaphylactic and septic shock?

Answer 47

Vasodilator Release

Question 48

Why does shock occur in neurogenic shock?

Answer 48

Lack of SNS capability

Question 49

Which coronary arteries will be subjected to less wall stress?

Which coronary arteries will be subjected to higher wall stress?

Answer 49

Epicardial coronary arteries

Endocardial or Subendocardial arterial plexus (hardest coronary artery to perfuse, MI will most likely affect this area)

Question 50

The deeper myocardial tissues tend to depolarize _______ and repolarize _________.

Answer 50

Depolarize first
Repolarize last

(The deeper we are, the longer the contraction is held)

Question 51

What is this graph depicting?

Answer 51

Reduced Ventricular Compliance.

EDV is almost the same in the solid line and dotted line, but it takes a lot more pressure in one versus the other.

Question 52

What are the causes of concentric LVH?

What are the causes of eccentric LVH?

Answer 52

Concentric LVH: Aortic stenosis and Chronic HTN

Eccentric LVH: Aortic/Mitral valve regurgitation, Ventricular septal defect, systolic dysfunction

Question 53

What is the equation for ejection fraction?

Answer 53

EF = SV/ LV EDV

Question 54

What is a normal EF for a healthy adult?

Answer 54

58.3% EF

(70/120) x 100 = 58.3%

Question 55

Eccentric LVH is known as _____________ because the heart cannot produce enough pressure to get blood out of the heart to satisfy our metabolic use.

Answer 55

Systolic Heart Failure

Question 56

Concentric LVH is known as ___________ because the ventricles will have trouble filling during diastole.

Answer 56

Diastolic Heart Failure

Question 57

What medication can you use to slow down hypertrophic remodeling?

Answer 57

ACE inhibitor (growth factor inhibitor and it also reduces afterload)

Question 58

Tetralogy of Fallot will result in a _________ to ________ shunt.

Answer 58

Right to left shunt.

Tetralogy of Fallot corresponds to anatomic stenosis of the pulmonary outflow tract in the right ventricle in combination with a ventricular septal defect. This results in a blockage of flow to the lungs with shunting of poorly oxygenated blood into the left ventricle and the systemic circulation.