3 - Pulmonary Blood Flow

Question 1

Alveolar capillaries receive blood from the _______ _______.

Answer 1

Right Ventricle

Question 2

Alveolar capillary blood has (HIGH/LOW) O2 and (HIGH/LOW) CO2.

Answer 2

Low

High

Question 3

There are millions of alveolar capillaries and they are involved in the exchange of O2 and CO2 between the ________ and the ________.

Answer 3

Blood

Air

Question 4

Extra-Alveolar (bronchial) capillaries receive blood from the ________ ________.

Answer 4

Left Ventricle

Question 5

Extra-alveolar capillary blood has (HIGH/LOW) O2 and (HIGH/LOW) CO2.

Answer 5

High

Low

Question 6

What is the job of the extra-alveolar capillaries?

Answer 6

To deliver O2 and CO2 to the tissue of the lungs.

Question 7

Extra-alveolar capillary blood returns to the heart in the ________ _______, creating venous admixture. This reduces the _______ of the arterial blood by a few mmHg and increases the _______ to a small degree.

Answer 7

Pulmonary veins
PaO2
PaCO2

Question 8

What is the PaO2 levels in the artery leading to the alveolar and extra-alveolar capillaries?

Answer 8

Alveolar = Low
Extra-alveolar = High

Question 9

What is the PaCO2 levels in the artery leading to the alveolar and extra-alveolar capillaries?

Answer 9

Alveolar = High
Extra-alveolar = Low

Question 10

How do the alveolar and extra-alveolar capillaries return blood to the heart?

Answer 10

Pulmonary veins to the Left Ventricle

Question 11

What is the blood gas levels in the vein from the alveolar and extra-alveolar capillaries?

Answer 11

Alveolar = High PaO2 and Low PaCO2
Extra-alveolar = Low PaO2 and High PaCO2 

***This creates a venous admixture due to the extra-alveolar blood gas levels.

Question 12

What is the equation for pulmonary BP?

Answer 12

PBP = CO x PVR

PBP = Pulmonary blood pressure (25/15 mmHg) 
CO = Cardiac Output (at rest 5 L/min)
PVR = resistance to blood flow through lungs (very low)

Question 13

PVR can depend on the number of capillaries open at a given time. During exercise, the PVR (INCREASES/DECREASES) as more pulmonary capillaries open up to accommodate the increased cardiac output.

Answer 13

Decreases

Question 14

PVR also depends on the lung ________.

Answer 14

Volume

Question 15

At low or very high lung volumes, the resistance (INCREASES/DECREASES) a little because the stretch of the tissue compresses the capillaries. Just like a rubber band gets a little thinner when stretched, the diameter of the capillaries decreases a little.

Answer 15

Increases

Question 16

Why does a person pass out if they stand with their knees locked too long?

Answer 16

– Gravity was acting on their blood, pulling it into their legs while they stood there with their knees locked.

– They passed out because less blood was returning to their heart (and therefore the brain).

***Not locking their knees will allow them to use skeletal muscle activity to increase the blood flow from their legs back up into their thorax.

Question 17

Gravity works on the blood in our bodies – when we stand, the blood pressure in our legs is increased compared to the level of the heart or in the brain. The same is true in the ________.

Answer 17

Lungs

Question 18

At the apex of the lung, the blood pressure is _________ because it is slightly above the level of the heart. However, the alveoli are somewhat _________. The blood flow is ________.

Answer 18

Reduced
Expanded
Less

Question 19

In the middle regions of the lung, the blood pressure is a little ________ because we are at the level of the heart. The alveoli are ________ size. The blood flow is ________.

Answer 19

Higher
Average
Normal

Question 20

At the base of the lung, the blood pressure is ________ because we are below the level of the heart. The alveoli are ________. The blood flow is ________ than in other regions of the lung.

Answer 20

High
Smaller
Greater

Question 21

This is made by the endothelium and causes smooth muscle relaxation and vasodilation. It plays a significant role in normal pulmonary blood flow.

Answer 21

Nitric Oxide

Question 22

This is also made in the lungs and is a vasoconstrictor. It seems to be a player under pathologic conditions (not under normal conditions).

Answer 22

Endothelin 1

Question 23

We treat this the same as Endothelin 1, and it can be found in the pulmonary vasculature under the right conditions.

Answer 23

Thromboxane A2

Question 24

The job of the ________ is to allow oxygen to move from the air to the blood. The problem is that oxygen is not terribly water soluble. If we were to allow the capillaries to leak water into the _______, we would impair the ability of oxygen to cross to the blood.

Answer 24

Alveoli

Alveoli

Question 25

So what determines whether the water moves from the capillaries to the alveoli?

Answer 25

The Starling Forces control how much fluid moves from the capillary to the lung.

Question 26

The ________ pressure is the fluid pushing against the tissue or walls of the capillary.

Answer 26

Hydrostatic

Question 27

The hydrostatic pressure is in which two places?

Answer 27

The capillary = Pc
***This is the blood pressure in the capillary. It is trying to push fluid into the alveoli.

The tissue = Pt
***This is in the rest of the body. It pushes fluid into the capillary.

Question 28

It appears that the same forces that give rise to the negative intrapleural pressure (the lung always trying to collapse, the chest wall trying to spring away) creates a negative hydrostatic pressure in the tissue. That means Pt is now a force favoring _________ of fluid from the capillary into the alveolus.

Answer 28

Filtration

Question 29

The ________ pressure is the osmotic pressure of the fluids involved.

Answer 29

Oncotic

Question 30

The oncotic pressure is in which two places?

Answer 30

The plasma (capillary oncotic pressure) = πc
***This tries to pull water into the capillary. 

The tissue (tissue oncotic pressure) = π tissue
***This tries to pull water into the alveolus.

Question 31

What are the forces moving water from the capillary to the alveolus?

Answer 31

Pc - capillary hydrostatic pressure
π tissue - tissue oncotic pressure
Pt - tissue hydrostatic pressure

***These are filtration

Question 32

What are the forces moving water from the alveolus to the capillary?

Answer 32

πc - capillary oncotic pressure

***This is reabsorption

Question 33

To figure out which way fluid will move, we add the forces favoring water moving into the tissue together and subtract the forces favoring water moving into the capillary. What is this equation?

Answer 33

(Pc + π tissue + Pt) - (πc)

***Filtration - Absorption

Question 34

In the lung, the Pc (hydrostatic pressure in the capillary) is the single (GREATEST/SMALLEST) force.

Answer 34

Greatest

Question 35

The Starling forces favor net filtration (movement) of fluid into the alveoli. But, that fluid is bad for gas exchange. So what do we do?

Answer 35

Lymphatics!

***Remove fluid and prevent pulmonary edema

Question 36

This is an enzyme that converts angiotensinogen (a protein added to the plasma by the liver) to angiotensin 1.

Answer 36

Renin

Question 37

Angiotensin 1 is converted to the more active Angiotensin 2 by _______ in the lungs.

Answer 37

ACE (Angiotensin Converting Enzyme)

Question 38

ACE also inactivates _________. About 10-15% of people who are placed on ACE inhibitors for blood pressure control develop a cough due to accumulation of this.

Answer 38

Bradykinin

Question 39

The lungs also participate in the metabolism of the _________ ________ metabolites.

Answer 39

Arachidonic Acid

***Both leukotrienes and prostaglandins/Thromboxane A2 are produced by immune system activation in the lungs.

Question 40

Enzymes in the lungs break down the leukotrienes and _______ and _______.

Answer 40

PGF-2a (Prostaglandin F2-alpha)

PG-E (Prostaglandin E2)