Physiology Review

Question 1

Where in the brain is CO2 O2 and pH of arterial blood sensed?

Answer 1

Respiratory centers in the medulla

Question 2

How is the metabolic demand of the body sensed by the peripheral chemoreceptors?

Answer 2

CO2, O2 and pH

Question 3

Peripheral chemoreceptors send information along which nerve to the medulla for integration?

Answer 3

CN IX and X

Question 4

What do the central chemoreceptors detect? Where does this send signals to?

Answer 4

pCO2

Question 5

What is the respiratory center in the brain called? What does this do?

Answer 5

Central pattern generator

Generates spontaneous rhythmic discharge to keep the diaphragm functioning at a reasonable rate based on metabolic demands

Question 6

What nerves does the central pattern generator send efferent signals to, to affect the respiratory muscles?

Answer 6

7
9
10
11
12

Question 7

Where in the breathing control mechanism can the higher CNS exerts effects? Along what tracts does it send signals?

Answer 7

At the level of the spinal cord (bypasses the central pattern generator)

corticospinal tract

Question 8

Along which tract does the ANS send signals to the diaphragm?

Answer 8

White matter of the spinal cord

Question 9

The diaphragm sends afferent signals to the brain via which nerve?

Answer 9

CN X

Question 10

What are the smallest airways that do not have alveoli?

Answer 10

Terminal bronchioles

Question 11

Where does the majority of the resistance to airflow come from? Why?

Answer 11

The bronchus and the bronchioles

This is where smooth muscle is

Question 12

What are the three major histological areas that comprise the conducting airways?

Answer 12

Inner mucosal surface
Smooth muscle layer
Outer connective tissue layer (cartilage)

Question 13

Where is the airways is cartilage found?

Answer 13

Main bronchi

Question 14

What type of epithelium covers the bronchial wall?

Answer 14

Ciliated pseudostratified epithelium

Question 15

What are the main components of the bronchial wall?

Answer 15

Epithelium
Smooth muscle cells
Mucus glands
CT
Cartilage

Question 16

What are the main components of the smaller bronchial walls?

Answer 16

Simple cuboidal epithelium

No cartilage

Question 17

Is there cartilage in the bronchioles?

Answer 17

No

Question 18

What are the four major obstructive lung diseases?

Answer 18

• Inflammation (bronchitis)
• Increased secretion (Asthma)
• Constriction of the smooth muscles
• Physical blockade (tumors)

Question 19

What is the equation for the resistance to airflow?

Answer 19

R = {8nl / pi(r)^4 | n = viscosity of inspired air, l = length of airway, r = radius of the airway}

Question 20

What happens with M3 activation in the lungs?

Answer 20

SM constriction

Question 21

What happens with Beta 2 activation in the lungs?

Answer 21

SM relaxation

Question 22

What is the most influential factor that controls resistance to airflow?

Answer 22

radius of the bronchiole

Question 23

What are the three conditions that result in obstruction from the airway wall?

Answer 23

Asthma

Acute and chronic bronchitis

Question 24

What is the pulmonary disorder that results in obstruction of the airway d/t a loss of lung parenchyma?

Answer 24

COPD

Question 25

What are the pulmonary disorders that result in obstruction of the airway due to an obstruction in the airway lumen? (5)

Answer 25

bronchiectasis
Bronchiolitis
CF
Epiglottitis
Croup

Question 26

Where does respiration take place?

Answer 26

At the respiratory unit

Question 27

What comprises the respiratory unit?

Answer 27

Respiratory bronchiole
Alveolar ducts
Atria
Alveoli

Question 28

What describes the capillary flow around the alveoli?

Answer 28

“sheet of flow”

Question 29

What comprises the respiratory membrane?

Answer 29

The cell membrane between type I alveolar cells and the capillary bed

Question 30

True or false: Like the tight junctions between endothelial cells, the junctions between endothelial cells are tight, not allowing much to pass through them

Answer 30

False–Unlike the tight junctions
between adjacent epithelial cells, which constitute a tight seal, the junctions between endothelial cells are leaky, allowing water and solutes to move back and forth between plasma and the interstitial space, the region between epithelial and endothelial basement membranes.

Question 31

What are the components of the respiratory membrane?

Answer 31

• Surfactant
• Alveolar epithelium
• Epithelial BM
• Interstitial space
• Capillary basement membrane
• Capillary endothelial membrane

Question 32

What is contained within the interstitial space in the respiratory membrane

Answer 32

Elastin and collagen (fibroblasts)
SM
Lymphatics
Capillaries

Question 33

What is Goodpasture syndrome?

Answer 33

Autoimmune attack against type IV collagen in the kidneys and lungs, resulting in failure

Question 34

What are the two major ways that pulmonary edema can result?

Answer 34

Damage to the respiratory membrane, or increased hydrostatic pressure in the capillaries

Question 35

What happens with an increased deposition of collagen in the respiratory interstitial space?

Answer 35

harder to expand

Question 36

What is the equation that relates to diffusion of gas across the respiratory membrane?

Answer 36

(dP)(A)(S) / d (MW)^0.5

A = surface area
S = solubility of gas
d = distance between two sides of the membrane

Question 37

What are the factors that you can change clinically to alter the diffusion of gas across the respiratory membrane?

Answer 37

dP

Question 38

What happens to dP in restrictive lung diseases?

Answer 38

Decreases

Question 39

What are the factors that can affect d in the diffusion equation?

Answer 39

Pneumonia

Pulmonary edema

Question 40

Which is more soluble in blood: CO2 or O2? What is the significance of this?

Answer 40

CO2

Needs a smaller partial pressure to enter the blood than oxygen does

Question 41

What are the two major factors mentioned in class that can alter the surface area of the respiratory membrane?

Answer 41

Atelectasis

Tumor

Question 42

What allows for the smooth movement between the visceral and parietal pleura?

Answer 42

1 mL of fluid

Question 43

Which has stomata, the visceral or parietal pleura? What is the function of these?

Answer 43

parietal pleura

Serve as exit points for the pleural liquid, protein, and cells from the pleural space, to the lymphatics

Question 44

What happens to the pleural capillaries in the visceral pleura during CHF? What does this cause?

Answer 44

Increased hydrostatic pressure

Causes a pleural effusion

Question 45

What is the blood supply to the visceral pleura?

Answer 45

Bronchial circulation with venous return via the sub visceral pleural cavities

Question 46

What is the blood supply to the parietal pleura?

Answer 46

branches of the intercostal arteries, with venous return via the bronchial veins

Question 47

True or false: normally, there is a steady and balanced influx and efflux of fluid into the parietal space

Answer 47

True

Question 48

What is the only significant barrier to solute and water exchange in the pleural space?

Answer 48

Pleural interstitium

Question 49

The contribution to pleural liquid and protein formation from the visceral pleura in humans is minimal. Why?

Answer 49

Because the distance between the microvessels and the mesothelium is
relatively large and because of the lower filtration pressure in the visceral pleural
microcirculation as bronchial venules empty into the pulmonary veins with their lower
pressure.

Question 50

What are the three main mechanisms by which there is a buildup of fluid in the pleural space?

Answer 50

Increased effusion
Decreased clearance
Combination

Question 51

Decreased oncotic pressure within the parietal capillaries will lead to pleural effusion. What can cause this? (3)

Answer 51

Hepatic failure
Kwashiorkor
Renal disease

Question 52

What is the cause of atelectasis induce pleural effusion?

Answer 52

Collapse of the visceral pleura d/t decreased oxygenation leads to collapse

Question 53

What is the most important cause of pleural effusions in CHF?

Answer 53

Increased pulmonary venous pressure causes fluid to move across the visceral mesothelium

Question 54

What is the effect of inflammation of the pulmonary and pleural microvessels?

Answer 54

Pleural effusion d/t increased movement of fluid

Question 55

How could a diaphragmatic defect result in a pleural effusion?

Answer 55

Fluid movement from the peritoneal to the pleural cavity

Question 56

What are the two major mechanisms by which there is a decreased clearance of lymphatic drainage?

Answer 56

Systemic venous HTN

Blockage

Question 57

What is the definition of lung compliance?

Answer 57

the extent to which the lungs will expand for each unit increase in transpulmonary pressure

Question 58

What happens to lung volume as transpulmonary pressure increases?

Answer 58

increases

Question 59

What accounts for the steep and sudden upward slope of the lung pressure to volume curve?

Answer 59

Max stretching is occurring

Question 60

How is lung compliance represented on a pressure-volume curve?

Answer 60

Slope between two points, with steeper slopes reflecting more compliance

Question 61

What is the relation between compliance and elasticity?

Answer 61

Inverse

Question 62

What are the factors that determine compliance of lung tissue?

Answer 62

Elastic forces of lung tissue (elastin and collagen)

Elastic surface forces of surface tension

Question 63

What are the four main categories of restrictive lung disease?

Answer 63

1. Lung parenchyma disorders
2. Pleural space disorders
3. Neuromuscular/chest wall disorders
4. Infection or inflammation of the lungs

Question 64

What are the two main lung parenchyma disorders?

Answer 64

Fibrotic interstitial lung disease

Atelectatic disorders

Question 65

What is fibrotic interstitial lung disease?

Answer 65

Diffuse interstitial lung disease or sarcoidosis

Question 66

What are the atelectatic disorders?

Answer 66

ARDS, IRDS

Question 67

What are the two major pleural space disorders?

Answer 67

Pneumothorax

Pleural effusion

Question 68

What are the neuromuscular disorders?

Answer 68

Polio
ALS
Guillain-barre

Question 69

What are the major chest wall deformities?

Answer 69

Scoliosis
Ankylosing spondylitis
Flail chest

Question 70

What is the effect of adding collagen to the lung in terms of compliance? Why?

Answer 70

Decreases compliance

This is due to more pressure needed to pull on inelastic collagen to get the same drop in pressure in the alveoli

Question 71

Why will pneumonia decrease the compliance of the lung?

Answer 71

Increased fluid between the two pleural surfaces (pressure changes has to transmit through more liquid/space

Question 72

What is the largest vascular bed in the body?

Answer 72

Pulmonary circulation

Question 73

What allows the pulmonary vasculature to be compliant enough to accommodate all of the cardiac output?

Answer 73

Large numbers
Thin wall
Lower muscularity

Question 74

How does the pulmonary vasculature change in response to increases/decreases in CO?

Answer 74

Changes compliance

Change number of arteries open (recruitment and distention)

Question 75

What is the blood supply to the lungs?

Answer 75

Bronchial arteries

Question 76

What percent of CO does the bronchial circulation receive? What happens in diseases like CF?

Answer 76

1-2%

CF increases the amount of blood received, causing hemoptysis

Question 77

Where does the blood in the bronchial circulation go after circulating through the alveoli?

Answer 77

1/3 goes straight back to the RA, other 2/3 goes to the LA via the pulmonary vein

Question 78

Why is there a small decrease in blood pO2 in the pulmonary vein as it returns to the heart?

Answer 78

Dumping of the bronchial circulation (physiological shunt)

Question 79

What is the general MOA of hypoxic pulmonary vasoconstriction?

Answer 79

If a pulmonary capillary gets less oxygen supply (less than 70 mmHg), it will constriction so blood goes to better aerated areas

Question 80

Do pulmonary veins constrict with hypoxia?

Answer 80

No

Question 81

What are the 5 major clinical scenarios in which there is an abnormal HPV response?

Answer 81

• Airway obstruction
• Failure of ventilation
• Acute lung damage
• High altitude
• COPD

Question 82

What is the normal, average value of V/Q?

Answer 82

0.8

Question 83

What is the “dead space” in the lungs?

Answer 83

Ventilation of those lung regions that are not perfused

Question 84

What is the common pathological state that leads to dead space formation?

Answer 84

pulmonary embolism

Question 85

What are shunts?

Answer 85

a portion of the cardiac output or blood flow that is diverted or
rerouted.

Question 86

What are the two components of the physiologic shunt?

Answer 86

Bronchial blood flow

Coronary circulation that drains directly into the LV through the thebesian veins

Question 87

What are the thebesian veins?

Answer 87

Veins from the coronary circulation that drain into the LV

Question 88

What are the causes of right to left shunts?

Answer 88

VSDs or ASDs

Question 89

Why is it that hypoxia always occurs with a right to left shunt?

Answer 89

Because a significant fraction of the cardiac output is not delivered to the lungs for oxygenation.

Question 90

What is the defining characteristic of a right to left shunt /a way to test for one?

Answer 90

It cannot be
corrected by having the person breathe a high O2 gas (e.g., 100% O2) because the shunted blood never goes to the lungs to be oxygenated.

Question 91

What are the two fairly common causes of left to right shunts?

Answer 91

PDA

Trauma

Question 92

V/Q = 0 means what?

Answer 92

Shunt

Question 93

V/Q = infinite means what?

Answer 93

Dead space

Question 94

What is the tidal volume (Vt)? What determines this?

Answer 94

the volume of air entering or leaving the nose or mouth per breath.

VT is determined by the activity of the respiratory control centers in the brain as they affect the
respiratory muscles and by the mechanics of the lung and the chest wall.

Question 95

What is residual volume? What determines this?

Answer 95

RV is the volume of gas left in the lungs after a maximal forced expiration.

RV is determined by the force generated by the muscles of expiration and the inward elastic
recoil of the lungs as they oppose the outward elastic recoil of the chest wall.

Question 96

What happens to residual volume with COPD? Why?

Answer 96

Increases dramatically d/t increased trapping of air in the alveoli

Question 97

What is the importance of residual volume?

Answer 97

Prevents the lungs from collapsing with total expiration

Question 98

What is the expiratory reserve volume?

Answer 98

the volume of gas that is expelled from the lungs during a maximal forced expiration

Question 99

What is the inspiratory reserve volume? What determines this?

Answer 99

the volume of gas that is inhaled into the lungs during a maximal forced inspiration
starting at the end of a normal tidal inspiration.

IRV is determined by the strength of contraction of the inspiratory muscles

Question 100

What is the functional residual capacity? How does this relate to the elastic recoil in the lungs?

Answer 100

the volume of gas remaining in the lungs at the end of a normal tidal expiration.

Represents the balance point between
the inward elastic recoil of the lungs and the outward elastic recoil of the chest wall.

Question 101

What is the inspiratory capacity?

Answer 101

the volume of air that is inhaled into the lungs during a maximal inspiratory effort that
begins at the end of a normal tidal expiration (the FRC)

Question 102

VT + IRV = ?

Answer 102

IC

Question 103

What is the total lung capacity? What determines this?

Answer 103

TLC is the volume of air in the lungs after a maximal inspiratory effort.

TLC is determined by the strength of contraction of the inspiratory muscles and the inward
elastic recoil of the lungs and the chest wall.

Question 104

RV + VT + IRV + ERV = ?

Answer 104

TLC

Question 105

What is the vital capacity?

Answer 105

VC is the volume of air expelled from the lungs during a maximal forced expiration starting after
a maximal forced inspiration

Question 106

TLC - RV = ?

Answer 106

VC

Question 107

What lung volumes cannot be measured with a spirometer?

Answer 107

RV
FRC
TLC

Question 108

What is the forced vital capacity (FVC)?

Answer 108

is the total volume of air that can

be forcibly expired after a maximal inspiration.

Question 109

What is FEV(1)?

Answer 109

FEV in the first second of exhalation

Question 110

What is the FEV1/FVC? What is the normal value of this? What does this represent?

Answer 110

he fraction of total FVC that can be expelled
in the first second. Normal value is 0.8. This ratio
reflects the resistance to airflow.

Question 111

What is he forced expiratory flow (FEF(25-75%))?

Answer 111

is the flow rate at 25 – 75% of the exhaled vital capacity

Question 112

What is the peak inspiratory flow (PIF)?

Answer 112

point of maximal flow during inspiration

Question 113

Draw out the flow/volume curve.

Answer 113

Draw

Question 114

What is represented by the area under the curve in the peak flow curve prior to the PEV? After>

Answer 114

Before PEF = large airways

After PEF = Small airways

Question 115

What happens to the flow-volume curve with obstructive lung diseases?

Answer 115

PEF occurs sooner, is not as high, and drops faster

Question 116

What happens to the flow-volume curve with an upper airway obstruction?

Answer 116

Flat peak at a much lower flow, as well as lower PIF. Volumes about the same.

Question 117

What happens to the flow-volume curve with a restrictive lung disease?

Answer 117

Lower peaks, much lower volumes

Question 118

What is the normal FEV1/FVC?

Answer 118

0.8

Question 119

What is the FEV1/FVC in obstructive lung diseases?

Answer 119

Less than 0.7

Question 120

What is the FEV1/FVC in restrictive lung diseases?

Answer 120

Increases