Pulmonary Circulation

Question 1

Pulmonary circulation has low resistance and systemic circulation has high resistance. What qualities of both determine the level of resistance?

Answer 1

Pulmonary

• Arterioles have less smooth muscle
• Veins are wider and shorter
• Pulmonary vessel walls are thinner

Systemic

• Increased smooth muscle in the arterioles & the metarterioles.

Question 2

Compare pulmonary and systemic circulation, in terms of preesure, resistance, and compliance.

Answer 2

Pulmonary

• Pressure: LOW
• Resistance: LOW
• Compliance: HIGH

Systemic

• Pressure: HIGH
• Resistance: HIGH
• Compliance: LOW

Question 3

At rest, aorta pressure is approximately 95 mmHg. Why is it so high?

Answer 3

Because systemic capillaries are closed

Question 4

During systemic circulation, what is the approximate pressure of the aorta and right atrium?

Answer 4

Aorta: 95 mmHg

Right atrium: 2 mmHg

*This makes the driving pressure aprroximately 93 mmHg

Question 5

During pulmonary circulation, what is the approximate pressure of the pulmonary artery and left atrium, respectively?

Answer 5

Pulmonary artery: 15 mmHg

Left atrium: 8 mmHg

*This makes the net driving pressure approximately 7 mmHg

Question 6

How is pulmonary vascular resistance calculated?

Answer 6

PVR= (MPAP-MLAP)/(PBF)

MPAP= Mean pulmonary artery pressure

MLAP= Mean left atrial pressure

PBF= Pulmonary blood flow

Question 7

Why is pulmonary resistance so much lower than systemic resistance?

Answer 7

• Pulmonary blood vessels are shorter and wider than those in the systemic circulation
• Arterioles are also present in much higher numbers
• The pulmonary arterioles are less muscular than those in the systemic circulation

Question 8

Which passive factors play a major role in pulmonary vascular resistance?

Answer 8

• Gravity
• Body position
• Lung volume
• Alveolar and intrapleural pressures
• Intravascular pressures
• Right ventricular output

NOTE: These factors play a major role in pulmonary vascular resistance without altering the tone of the pulmonary vascular smooth muscle

Question 9

Transmural pressure difference

Answer 9

Pressure inside minus pressure outside the vessel

Question 10

As transmural pressure difference ________ (increases/decreases), the vessel diameter increases and resistance falls.

Answer 10

Increases

NOTE: A negative transmural pressure difference can lead to compression or even collapse of the vessel.

Question 11

More _______ (negative/positive) intrapleural pressure pulls open extra-alveolar vessels.

Answer 11

Negative

Question 12

Alveolar vessel resistance is dependent on what two factors?

Answer 12

Transmural pressure

Lung volume

Question 13

As lung volume __________ (increases/decreases), the alveolar walls become more stretched out.

Answer 13

Increases

NOTE: The alveolar vessel is stretched along the longitudinal axis and the alveolar vessel is crussed when viewed in cross-section. This raises vessel resistance

Question 14

Pulmonary vascular resistance is lowest near the __________ and increases at both low and high lung volumes because of the combined effects of the alveolar and extralveolar vessels.

Answer 14

Functional residual capacity

Question 15

How are low lung volumes achieved?

Answer 15

• Positive intrapleural pressures
• Compression of extraalveolar vessels

Question 16

Total pulmonary vascular resistance

Answer 16

Extra-alveolar resistance + alveolar resistance

Question 17

Functional Residual Capacity

Answer 17

The volume of air present in the lungs at the end of passive expiration.

Question 18

Resistance to blood flow is higher at ______ (low/high) lung volumes because the traction on the vessel walls is decreased.

Answer 18

Low

Question 19

Gravity-dependent Pulmonary Blood Flow in the Lung

Answer 19

Blood flow to alveoli is greater at the bottom of the lung than at the top, when in an upright position

NOTE: Blood travels through the more gravity-dependent regions of the lung at a faster rate

Question 21

During exercise what happens to pulmonary vascular resistance? How can this be explained?

Answer 21

The pulmonary vascular resistance will decrease. This can be explained by the recruitment and distention of pulmonary capillaries that occurs in response to elevated blood flow and perfusion pressure.

Question 22

What role does recruitment play in reduction of pulmonary resistance?

Answer 22

• As pressure increases:
  
  • Closed vessels may now open
  • Capillaries that were open but not conducting now begin to conduct blood

NOTE: The recruitment of additional parallel capillary pathways reduces overal vascular resistance

Question 23

What role does distention play in reduction of pulmonary resistance?

Answer 23

• Once a vessel is open and conducting: furter pressure increases will increase transmural pressure
  
  • This causes the vessel to dilate

Question 24

How is derecruitment accomplished?

Answer 24

• Low right ventricular output
• High alveolar pressure

*This results in a decrease in surface area for gas exchange and may increase alveolar dead space

Question 25

Vasodilators

Answer 25

• Increase in O2
• Decrease in CO2
• Increase in pH
• Histamine, H2 agonists
• Prostacyclin
• Beta-adrenergic agonists
• Bradykinin
• Theophylline
• Acetylcholine
• NO

Question 26

Vasoconstrictors

Answer 26

• Decrease in O2
• Increase in CO2
• Decrease in pH
• Histamine, H1 agonists
• Thromboxane A2, PGF2 aplha, PGE2
• alpha-adrenergic agonists
• Serotonin
• Angiotensin II

Question 27

What factors are predisposing to pulmonary edema?

Answer 27

• Increased capillary permeability
• increased capillary hydrostatic pressure
• Decreased interstitial hydrostatic pressure
• Decreased colloid osmotic pressure

Question 28

What is the bronchial blood pressure in relation to systemic presure?

Answer 28

Equal

*This means that bronchial blood pressure is much higher than the pressure in pulmonary circulation

Question 29

The return of venous blood from the capillaries of the bronchial circulation to the heart occurs either through _________ veins or through_________ veins.

Answer 29

True bronchial; Bronchopulmonary