Unit 3: Pulmonary Physiology Pt2

Question 1

What are the 20 generations of branching of the airway in lung?

Answer 1

Trachea –> Bronchi (11) –> Bronchioles (5)–> Respiratory Bronchioles (4) –> Alveolar ducts –> alveolar sacs –> Alveoli

Question 2

What part of the branching of the airway in the lungs lacks cartilage?

Answer 2

bronchioles and those that follow

Question 3

What happens to surface area as we go down the branching in the lungs?

Answer 3

surface area increases

trachea has 2 cm^2 and 300 million alveoli have 50-100 M^2

Question 4

What is the area where gas exchange cannot occur called?

Answer 4

Dead space (mainly the airways)

Question 5

What are two subcategories of the Dead space of our pulmonary branches?

Answer 5

1. Anatomical Dead Space (=150ml)–> airways

2. Physiological Dead Space = anatomical + non-fxnal alveoli

Question 6

What is the dead space that equals the anatomical dead space plus the non functional alveoli called?

Answer 6

Physiological dead space

Question 7

How is the dead space calculated?

Answer 7

using a pure O2 inspiration and measuring nitrogen in expired air
– % area x Ve

Question 8

How do we calculate the Alveolar volume?

Answer 8

= FRC - dead space
= 2300ml - 150ml
= 2150ml

(FRC = functional residual capacity)

Question 9

Where is most of the FRC (functional residual capacity) at, at the end of a normal expiration?

Answer 9

at the level of the alveoli

Question 10

How long does it take to turnover the alveolar air?

Answer 10

about 6-7 breaths

Question 11

What is the equation for the rate of alveolar ventilation?** What does it equal?

Answer 11

Va = RR (Vt - Vd)

Va = alveolar ventilation
RR= respiratory rate 

Va = ~ 4 L/min**

Question 12

What are the three ways Efferent Neural control of the airways occurs?

Answer 12

1. SNS
2. PSNS
3. NANC Nerve (non-adrenergic, non-cholinergic)**

Question 13

What will the SNS efferent neural control have on the airways? What type of receptors?

Answer 13

beta receptors–> causing dilation

Question 14

What is the direct and indirect way the SNS can effect the airways? Which is predominant?

Answer 14

direct = weak due to sparse innervation

indirect = predominant via catecholamines

Question 15

What type of receptors does the PSNS use to control the airways? What effect does it have on them?

Answer 15

muscarinic receptors –> causing constriction

Question 16

What effect do NANC nerves have when they are inhibitory to the airways?

Answer 16

release VIP and NO = bronchodilation

Question 17

What effect do NANC nerves have when they are stimulatory on the airways?

Answer 17

bronchoconstriciton, mucous secretion, vascular hyperpermeability, cough, vasodilation

= “neurogenic inflammation”

Question 18

What stimulates the “neurogenic inflammation” of the airways?

Answer 18

NANC nerves (non-adrenergic and non-cholinergic)

Question 19

What type of afferent nerve receptors are associated with smooth muscle of proximal airways and stretch receptors, involved in reflex control of breathing and cough reflex?

Answer 19

Slow Adapting receptors

Question 20

What type of afferent never receptors are sensitive to mechanical simulation, protons, low Cl- solutions, histamine, cigarette smoke, ozone, serotonin, PGF?

Answer 20

Rapidly adapting receptors

(some response may be secondary to mechanical distortion produced by bronchoconstriction

Question 21

What autonomic control of the airways is selectively stimulated by capsaicin?**

Answer 21

C-fibers (high density)

also activated by bradykinin, protons, hyperosmole solutions, and cigarette smoke

Question 22

What effect will these local factors have on the smooth muscle of the airway?

1. Histamine binds to H1 receptors
2. Histamine binds to H2 receptors

Answer 22

1. constriction
2. dilation

(“1 before 2, and C before D”)

Question 23

What effect will these local factors have on the smooth muscle of the airway?

1. Prostaglandins E series
2. Prostaglandins F series

Answer 23

1. dilation
2. constriction

(“take it E-asy and Dilate”

Question 24

What effect will a slow reactive substance of anaphylaxsis (SRS-A) have on the airway smooth muscle?

Answer 24

constriction–> allergic response to pollen

Question 25

What will environmental pollution such as smoke, dust, sulfur dioxide, and some acidic elements in smog have on the smooth muscle of the airway? What is this mediated?

Answer 25

elicit contrition of the airways

• parasympathetic reflex
• local constrictor responses

Question 26

What are the normal levels of HCO3- (bicarbonate)?

Answer 26

= 24 mEq/L

Question 27

When the HCO3- is less than 24 mEq/L, what is this considered and what will happen to ventilation?

Answer 27

Metabolic acidosis–> stimulate ventilation

Question 28

When the HCO3- is greater than 24 mEq/L, what is this considered and what will happen to ventilation?

Answer 28

Metabolic alkalosis–> will inhibit ventilation

Question 29

What regulates the HCO3- (bicarbonate) levels?

Answer 29

the kidney

Question 30

What is the normal level of CO2 in arterial blood?

Answer 30

40 mmHg*

Question 31

When we see “metabolic” what should we think? When we see “respiratory” what should we think?

Answer 31

metabolic–> think kidneys

respiratory–> think lungs

Question 32

What is it considered and what occurs when the CO2 levels in arterial blood is greater than 40 mmHg?

Answer 32

Respiratory acidosis–> will stimulate ventilation

Question 33

What is it considered and what occurs when CO2 in arterial blood is less than 40 mmHg?

Answer 33

Respiratory alkalosis –> will inhibit ventilation

Question 34

What regulates the CO2 levels detected in arterial blood?

Answer 34

Lungs

Question 35

Pulmonary artery wall is _____ as thick as aorta.

Answer 35

1/3 as thick

Question 36

The Right Ventricle is ____ as thick as the Left Ventricle.

Answer 36

1/3

Question 37

Do pulmonary arteries have a smaller or larger lumen? Why? ***

Answer 37

larger lumen b/c:

• more compliant
• operate under a lower pressure**

Question 38

T/F. Pulmonary veins are shorter, but similar compliance compared to systemic veins

Answer 38

True

Question 39

What is the average total pulmonic blood volume? What percentage is this of total blood volume?

Answer 39

450 ml (9% of total blood volume)

Question 40

What will shifts in volume from pulmonic to systemic or vise versa have a greater effect on?

Answer 40

pulmonary circulation**

shifts effect the smaller one more

Question 41

Pulmonic circulation and systemic circulation are in what type of circulation together?

Answer 41

are in series

Question 42

What are the branches off the thoracic aorta which supply oxygenated blood to the supporting tissue and airways of the lung?

Answer 42

Systemic Bronchial Arteries

Question 43

What percentage of our CO do the systemic bronchial arteries use?

Answer 43

(they supply blood to supporting tissue and airways of lungs)

1-2%

Question 44

T/F. The Right ventricle pumps more blood than the left ventricle.

Answer 44

FALSE—- the LV pumps slightly more blood (1%) than the RV

Question 45

Why does the LV have a slightly higher (1%) output than the RV?

Answer 45

b/c of the drainage into pulmonary veins–> causing it to dump some deoxygenated blood into oxygenated pulmonary venous blood and go to the left atrium, then left ventricle and out of heart

Question 46

What is the only organ that receives blood flow in excess of cardiac output? Why?

Answer 46

lungs; b/c it receives both total pulmonic flow and some systemic flow simultaneously

Question 47

What does the Total Flow to the Lungs equal?

Answer 47

= RV output (pulmonic flow) + bronchial artery flow (a small portion of systemic flow from aorta)

Question 48

T/F. Right ventricular output = 100% cardiac output.

Answer 48

True

Question 49

What percentage of cardiac output is bronchial artery flow of systemic blood flow?

Answer 49

1-2% of CO

Question 50

What makes pulmonary lymphatics different than any other lymphatics?**

Answer 50

remove particulate matter absorbed from alveoli**

(also remove plasma filtrate, and escaped protein from vascular system

Question 51

What is the “respiratory membrane” made up of?

Answer 51

2 layers: alveolar epithelium and capillary endothelium

Question 52

What helps maintain negative interstitial pressure, which pulls alveolar epithelium against capillary endothelium (aka “respiratory membrane”)?

Answer 52

Pulmonary lymphatics

Question 53

What are the following mean Pulmonary pressures?

1. Pulmonary Artery Pressure =
2. Mean Pulmonary Capillary P =
3. Major pulmonary veins and left atrium =

Answer 53

1. 15 mmHg
2. 7 mmHg
3. 2 mmHg

Question 54

If an alveolar has lower O2, what will that cause release of? Why?

Answer 54

local vasoconstrictors –> which automatically redistributes blood to better ventilated areas

(b/c no point to send blood to an area that isn’t getting the oxygen we are trying to take in)

Question 55

How will the SNS influence the pulmonary vascular smooth muscle?**

Answer 55

cause a mild vasoconstriction

Question 56

How will the parasympathetic influence the pulmonary vascular smooth muscle?**

Answer 56

cause a mild vasodilation

unique that has parasymathetic innervation at all, usually only have sympathetic influence turning up and down

Question 57

What is the major constrictor effect on pulmonary vascular smooth muscle?

Answer 57

is low alveolar O2

Question 58

Under resting conditions, at what point is the blood of the pulmonary capillary fully oxygenated as it is passing the alveoli?

Answer 58

once as passed first 1/3 of pulmonary capillary

even if velocity increase 3x–> fully oxygenation occurs

Question 59

What is the normal transit time for the oxygenation of blood in the pulmonary capillary? What is it under high CO? Does full oxygenation still occur?

Answer 59

.8 sec

high CO = ~.3 sec; Yes full oxygenation still occurs

Question 60

When it comes to oxygenation of blood in pulmonary capillaries, what is the limiting fator in exercise?

Answer 60

SV

Question 61

From the apex to the base of the lungs, will the capillary pressure increase or decrease? why?

Answer 61

capillary pressure increases–> due to gravity

Question 62

What zone type of the lung will have no flow? Does this normally exist?

Answer 62

Zone 1; does not normally exist

Question 63

In what is called Zone 1, is the alveolar P greater or less than capillary P?

Answer 63

alveolar P > capillary P

Question 64

What zone type of the lung will have intermittent flow and it located toward the apex? Describe the P b/w the capillaries and alveolar.

Answer 64

Zone 2

during systole–> capillary P > alveolar P

during diastole: alveolar P > capillary P

Question 65

What zone type of the lung will have continuous flow and it located toward the base of the lung?

Answer 65

Zone 3 (capillary P > alveolar P)

Question 66

What zone type will the entire lung be in during exercise?

Answer 66

Zone 3 (= continuous flow; capillary P > alveolar P)

Question 67

What are the Net forces favoring for the pulmonary capillary dynamics?

Answer 67

filtration by 1 mmHg

Filtration forces = 15 mm Hg from:

• Capillary hydrostatic P = 7mmHg
• Interstitial hydrostatic P = -8mmHg

Reabsorption forces = 14 mmHg from:

• Plasma colloid osmotic P = 28 mmHg
• Interstitial colloid osmotic P = 14 mm

Question 68

What is the idea gas law?

Answer 68

PV = nRT

P = gas pressure
V = vol of gas occupies
n = number of moles of a gas
R = gas constant
T = absolute temp in K (C = - 273)

Question 69

What gas law is the diffusion of a gas is inversely proportional to the square root of its molecular weight?

Answer 69

Graham’s Law

Question 70

What gas law is the quality of gas that can dissolve in a fluid is = to the partial pressure of the gas times the solubility coefficient?

Answer 70

Henry’s law

Question 71

What gas law is the pressure exerted by a mixture of gases is equal to the sum of the ind. (partial) pressure exerted by each gas?

Answer 71

Dalton’s Law of Partial Pressure

Question 72

What is the term for the pressure that is exerted by the H2O molecules to escape from the liquid to air?
What is this due to?
What is it proportional to?

Answer 72

Vaper P of H2O

molecular motion

temperature

Question 73

What is the vapor P of H2O at body temperature (37 degress C)?

Answer 73

= 47 mmHg

Question 74

Atmospheric Air vs Alveolar Air, which is high?
H2O vaper
Oxygen
Nitrogen
CO2

Answer 74

H2O vaper = alveolar air
Oxygen = atm air
Nitrogen = atm air
CO2 = alveolar air

Question 75

What is the most abundant gas in air behind Nitrogen and oxygen?

Answer 75

argon at about 0.93%

Question 76

How do the follow relate to diffusion across the respiratory membrane?–are they proportional or inversely proportional?

1. Temp
2. Solubility
3. Cross-sectional area
4. Sq root of molecular weight
5. Conc. gradient
6. distance

Answer 76

1. temp – is proportional
2. solubility – “ “
3. cross-sectional area – “ “
4. sq root of molecular weight – inversely prop.
5. conc. gradient – is proportional
6. distance– inversely prop.

(Solubility and MW are properties of gas)

Question 77

What do relative diffusion coefficients represent?

Answer 77

how readily a gas will diffuse across the respiratory membrane

• are proportional t solubility
• are inversely proportional to sq root of MW

Question 78

List in order the solubility of the following gases from most to least in a aqueous solution? O2, CO2, N2

Answer 78

CO2 (20.3) > O2 (1.0) > N2 (0.53)

Question 79

CO2 is ____ times more diffusable than O2.

Answer 79

20x

Question 80

Nitrogen is ___ as diffusable as O2.

Answer 80

1/2