Exam 1 Lecture 3 (1-24-23) CO, VR, and Pressure Volume Loops (Andy's cards)

Question 1

What factor will cause significant right or left shift in the cardiac output curve?

Answer 1

Changes in thoracic pressure.

(19:12)

Question 2

What is normal intrathoracic pressure (intrapleural pressure)?

Answer 2

-4 mmHg or -5 cmH₂O

(19:58)

Question 3

What happens to our pleural pressure as we inspire or breathe in?

Answer 3

Intrapleural pressure decreases (more negative) and helps pulls more air in to the lungs. (20:30)

Question 4

What does a drop in pleural pressure do to the filling of the heart?

Answer 4

If there is a more negative intrapleural pressure, the negative pressure will help draw blood from the peripheral veins in to the thorax increasing filling in the right side of the heart. (21:00)

Question 5

Relating to thoracic pressure, what can cause the cardiac output curve to shift left?

Answer 5

1. During inspiration
2. Negative Pressure Ventilator (“Iron Lung”)

(22:49)

Question 6

What does an increase in thoracic pressure do to the cardiac output curve ?

Answer 6

Shift the cardiac output curve to the right, indicating it is more difficult to fill the heart back up with blood. To overcome the increase thoracic pressure, the pressure in the venous system will need to be increased in order get blood back into the chest.

(22:37)

Question 7

Relating to thoracic pressure, what can cause the cardiac output curve to shift right?

Answer 7

1. Cracking the rib cage will result in the pressure in the chest to go from sub-atmospheric to atmospheric.
2. Positive Pressure Ventilation
3. Cardiac Tamponade
4. Pleural Effusion (not mentioned specifically in lecture but it fits I think)
   (25:00)

Question 8

If we have a normal venous return curve and RAP of 5 mmHg. What happens to CO?

Answer 8

The increase right atrial pressure is a result of the heart not pumping effectively. Blood accumulates in the right atrium, increasing right atrial pressure which makes venous return more difficult which will decrease cardiac output.

(27:33)

Question 9

What is the formula for Venous Return?

Answer 9

Venous Return = (Systemic Filling Pressure - Right Atrial Pressure) / (Resistance to Venous Return)

(28:00)

Question 10

Where will the CO Curve shift with β1 agonist administration?

Answer 10

Curve will shift left (enhanced)

Question 11

Where will CO Curve shift in a depressed or sick heart?

Answer 11

Curve will shift right (depressed)

Question 12

What can cause the shift from point A to point B?

Answer 12

Giving an arterial-specific vasodilator (Sodium Nitropursside) will decrease the RVR and SVR, increasing venous return which will increase RAP of the system, increasing cardiac output.

(32:45)

Question 13

What can cause the shift from point A to point B?

Answer 13

Giving a venular-specific vasodilator (Nitroglycerin) will decrease CVP and PSF of the venous return curve which will lead to a decrease in cardiac output.

(35:00)

Question 14

What can cause the shift from point A to point B?

Answer 14

Giving a mixed vasodilator will dilate the veins which will reduced PSF and dilate the artery which will reduce the RVR and increasing the slope of the VR Curve.

(37:00)

Question 15

How do you increase the size and position of the venous return curve?

Answer 15

Increase Volume or Decrease Compliance (ie: contract your veins, increase tone)

Question 16

How do you decrease the size and position of the venous return curve?

Answer 16

Decrease Volume or Increase Compliance (dilation of veins)

(38:00)

Question 17

How will the slope of the VR Curve be affected by an increase in SVR?

Answer 17

↑SVR will decrease the slope of the VR curve.

Question 18

What is causing the decreased slope and increased PSF of the red VR curve?

Answer 18

Arterial Vasoconstriction will increase RVR, decreasing the slope of the VR Curve.

Venous Vasoconstriction will increase tone of the veins and increase PSF.

(39:00)

Question 19

Which letter represents initial compensation to heart failure with an increase to sympathetic activity and increase venous tone to provide normal cardiac output?

Answer 19

Letter C (40:30)

Question 20

Which letter represents less sympathetic activity as a result from increasing fluid retention to compensate for heart failure?

Answer 20

Letter D (43:30)

Question 21

Which letter represents fluid retention to establish new normal sympathetic activity to illustrate long term compensation for heart failure.

Answer 21

Letter E (44:00)

Question 22

Which letter represents no compensation after heart failure?

Answer 22

Letter B (46:50)

Question 23

With heart problems the body will retain _________ in order to have a normal cardiac output.

Answer 23

retain fluid

(48:30)

Question 24

What is the formula for cardiac index?

What are the units for Cardiac Index?

Answer 24

Cardiac Output / Surface Area

L/min/m²

(54:41)

Question 25

At what age does is our cardiac index the highest?

What will that cardiac index be?

Answer 25

10 years old

Cardiac Index peaks at 4.5 L/min/m²

(55:00)

Question 26

What would the cardiac index be in a healthy 80-year-old person?

Answer 26

2.4 L/min/m²

(55:20)

Question 27

What would the cardiac index be in a healthy middle age person?

Answer 27

3 L/min/m²

(55:30)

Question 28

What is our cardiac index dependent on?

Answer 28

Metabolic Rate
TPR (Total Peripheral Resistance)
SVR (Systemic Vascular Resistance)

Question 29

For cardiac index what is TPR and SVR controlled by?

Answer 29

Metabolic requirements of the tissue.

If the tissues need lots of oxygen and nutrients, TPR and SVR will decrease to make it easier for the heart to pump.

(56:30)

Question 30

Increase Metabolism will lead to a _____________ in cardiac index/output.

Answer 30

increase
(57:00)

Question 31

What does Arterial Pressure divided by Vascular Resistance equal to?

Answer 31

Cardiac Output = Arterial Pressure / Vascular Resistance

(56:40)

Question 32

What are diseases or conditions that will result in a high cardiac index / cardiac output.

Answer 32

1. Beriberi
2. AV Shunts
3. Hyperthyroidism
4. Anemia
5. Pulmonary Disease
6. Paget’s Disease

Question 33

What kind of deficiency will a person have with Beriberi?
What is this deficient “thing” used for in the body?

Answer 33

Vitamin B1.

Vitamin B1 is used as a cofactor for ATP production in the body.

(57:40)

Question 34

In optimal conditions, how many ATPs are produced when glucose is combined with oxygen?

Answer 34

36 ATPs

(58:00)

Question 35

How does Beriberi increase an individual’s metabolism?

Answer 35

With Vitamin B1 deficiency, the body is not as efficient in producing ATP. Therefore, more glucose will need to be utilize to produce adequate energy. (58:50)

Question 36

What are diseases or conditions that will result in a low cardiac index / cardiac output.

Answer 36

1. Removal of both arms and legs
2. Hypothyroidism

(61:25)

Question 37

What drug uncouples metabolism and can cause decrease in arterial pressure?

Answer 37

Dinitrophenol

Question 38

What is a dangerous side effect of Dinitrophenol?

Answer 38

Increase body temperature and overheating

Question 39

Which letter will display the optimal length of cardiac myocytes?

Answer 39

B.

(80:55)

Question 40

If there is an increase in preload what happens to EDV?
SV?
ESV?

Answer 40

Increase EDV.
Increase SV.
ESV will remain constant.

Question 41

If there is an decrease in preload what happens to EDV?
SV?
ESV?

Answer 41

Decrease EDV.
Decrease SV.
ESV will remain constant.

Question 42

If there is an increase in afterload at a constant preload what happens to SV?
ESV?

Answer 42

Due to the increase afterload, the heart will have to pump longer and harder to generate enough pressure to open the aortic valve this will cause a shorter period time for ejection, decreasing SV.

Less blood ejected means an increase in ESV.

Question 43

What are two reasons why SV will be decreased in a heart with an increased afterload?

Answer 43

1. ↑afterload causes ↑ contractility causes shorter ejection time thus ↓SV.
2. ↑ aortic pressure causes AV to shut faster thus decreasing SV.

(86:00)

Question 44

If there is a decrease in afterload at a constant preload what happens to SV?
ESV?

Answer 44

The decrease afterload will open the aortic valve sooner and more time will be spent on ejection, increasing SV.

Increase ejection time, means decrease ESV

(87:00)

Question 45

If there is an increase in contractility at a constant preload what happens to SV?
ESV?

Answer 45

Increase in contractility will increase SV and decrease ESV.

Question 46

If there is a decrease in contractility at a constant preload what happens to SV?
ESV?

Answer 46

Decrease in contractility will decrease SV and increase ESV.

(89:00)

Question 47

What happens to the left ventricular volume of blood during phase 2 of the cardiac cycle with mitral valve regurgitation?

Answer 47

Blood in the left ventricle will move into the left atria when ventricular pressure is higher than atrial pressure.

Question 48

What happens to left ventricular volume of blood during phase 3 of the cardiac cycle with mitral valve regurgitation?

Answer 48

The majority of blood will be ejected through the aorta, but there will also be some blood that will go into the left atria. (91:00)

Question 49

What happens to left ventricular volume of blood during phase 4 of the cardiac cycle with mitral valve regurgitation?

Answer 49

During the initial part of phase 4, blood in the left ventricle leaks into the left atria because ventricular pressure > atrial pressure.

Question 50

During what phases will their be backwards movement of blood in mitral valve regurgitation?

Answer 50

Phases 2, Phase 3, and early part of phase 4. Blood in the left ventricles will move back to the left atria.

(93:00)

Question 51

How does the body compensate for mitral valve regurgitation?

Answer 51

Blood volume expansion (increase CVP)

(94:00)

Question 52

Mitral valve stenosis will be similar to which of the following?

A. Reduced Preload
B. Reduced Afterload
C. Increased Preload
D. Increased Afterload

Answer 52

A. Reduced Preload

Question 53

What happens to SV and EDV in mitral stenosis?

Answer 53

Decrease in SV due to a decrease in EDV.

There is poor filling d/t a high resistance mitral valve

Question 54

How does the body compensate for mitral valve stenosis?

Answer 54

Increase P_SF (increase CVP)

Question 55

What happens to blood in the aorta during phase 4 of the cardiac cycle with aortic valve regurgitation?

Answer 55

Blood leaks from the aorta to the left ventricle during the later part of phase 4 due to the pressure difference between the aorta and left ventricle. (98:30)

Question 56

What happens to blood in the aorta during phase 1 of the cardiac cycle with aortic valve regurgitation?

Answer 56

Aortic pressure will be greater than ventricular pressure in phase 1 resulting to an increase in volume in the left ventricle.

Question 57

How does the body compensate for aortic valve regurgitation?

Answer 57

Fill the heart up with more blood, increase CVP

Question 58

Why does an aortic valve stenosis result in a high afterload?

Answer 58

Blood is pumping through an aortic valve with a higher than normal resistance will result in a higher afterload. (101:00)

Question 59

What happens to the left intraventricular pressure of the heart if there is aortic valve stenosis?

What happens to the aortic pressure if there is aortic valve stenosis?

Answer 59

The left intraventricular pressure of the stenotic heart will be higher than normal.

The aortic pressure of the stenotic heart will be lower than normal.

(102:00)

Question 60

What happens to pulse pressure in someone with aortic valve stenosis?

Answer 60

Pulse Pressure decreases due to increased resistance.

(↓PP from ↑afterload)

Question 61

How does the body compensate for aortic valve stenosis?

Answer 61

1. The body will increase filling pressure (increase CVP)
2. Increase HR d/t decrease SV over time.

(104:00)

Question 62

Which of the following will most likely cause an elevated heart rate?

A. Aortic Regurgitation
B. Mitral Regurgitation
C. Aortic Stenosis
D. Mitral Stenosis

Answer 62

C. Aortic Stenosis

Question 63

If there is depressed contractility in someone with heart failure, what treatment will be given to increase SV and cardiac output?

Answer 63

Treat depressed contractility with an afterload reducer.

(106:00)

Question 64

How many breathes do we take in a minute?

Answer 64

10-12 breaths/min

(108:34)

Question 65

What happens to CVP during inspiration.

Answer 65

During inspiration, the diaphragm contracts and expands thoracic cavity decreasing intra-thoracic pressure, decreasing CVP, increasing venous return and cardiac output. (109:00)

Question 66

How does the pulmonary arterial pressure drop during inspiration?

Answer 66

The lungs and blood vessels are very compliant. As the intra-thoracic pressure becomes more negative during inspiration the lungs and blood vessels are “pulled out” (dilated?) making the interior pressure of the blood vessels drop (↓ PAP).

(111:00)

Question 67

How does a decreased PAP increase CO?

Answer 67

Reduction of PAP, reduces the afterload the right heart has to pump against. The combination of this with increase venous return from the more negative intra-thoracic pressure will increase cardiac output. (112:00)

Question 68

What vessel feeds into the left atria of the heart?

Answer 68

Pulmonary veins

Question 69

What happens to filling in the left side of the heart during early inspiration?

What will happen to MAP?

Answer 69

Early inspiration will reduce thoracic pressure to fill the lungs and right side of the heart with blood and not so much to the left heart.

MAP decreases due to blood pooling temporarily in the lungs and poor filling of the left heart. MAP normalizes after a couple of heartbeats.

(114:30)

Question 70

How does positive pressure ventilation initially affect cardiac output?

How does PPV affect CO over time?

Answer 70

The initial increase of intrathoracic pressure from PPV will push blood into the right and left side of the heart and increase CO.

Overtime, PPV will impair venous return.

(117:00)

Question 71

As cardiac output and cardiac index increases, oxygen consumption _____________.

Answer 71

Increases (proportional relationship)

Question 72

How will the slope of the VR Curve be affected by a decrease in SVR?

Answer 72

Decreasing the SVR will make the slope of the VR curve steeper, increasing CO.