Respiratory Physiology- Mechanisms I

Question 1

Functions of the respiratory system

Answer 1

• Exchange of gases between the atmosphere and the lung
• Homeostatic regulation of body pH
• Protection from inhaled pathogens/ irritants
• Vocalization, signing, and production of audible sounds

Question 2

Contraction of the diaphragm _________ (increases/decreases) thoracic volume.

Answer 2

Increases

Question 3

Muscles of inspiration

Answer 3

Principal

• External intercostalis
• Diaphragm
• Interchondral part of internal intercostalis

Accessory

• Seratus anterior
• Scalene
• Sternocleoidomasteoid

Question 4

Muscles of expiration

Answer 4

Active breathing

• Internal intercostalis, except interchondral part
• Abdominal muscles
• Recutus abdominis
• External oblique
• Transversus abdominis

NOTE: There are no muscles involved in quiet expiration

Question 5

Functional Residual Capacity

Answer 5

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

Question 6

Compliance equation

Answer 6

Change in volume/Change in pressure

Question 7

Transpulmonary pressure

Answer 7

The difference between the alveolar pressure and the intrapleural pressure

Question 8

At _________ (low/high) lung volumes, large changes in transpulmonary pressure only produce small changes in lung volume.

Answer 8

High

Question 9

Emphysema results in a ____ (less/more) complaint lung.

Answer 9

More

NOTE: In emphysema, Type I alveolar cells are destroyed.

Question 10

Pulmonary fibrosis results in a ____ (less/more) complaint lung.

Answer 10

Less

NOTE: Proliferation of connective tissue is seen here. Lungs are stiff

Question 11

Which diseases result in a reduced complaince?

Answer 11

• Pulmonary edema
• Pleural effusion
• Hemothorax
• Empyema
• Obesity
• Musculoskeletal disease (like kyphoscoliosis)

Question 12

Individuals with decreased compliance have to exert an increased work load for breathing. Why?

Answer 12

Becuase individials with decreased compliance must generate greater transpulmonary pressure to produce changes in the lung volume than those with normal compliance

Question 13

Specific compliance

Answer 13

Demonstrates that the complaince does not change when normalized with a volume

NOTE: This is usually calculated by dividing the compliance by the functional residual capacity

Question 14

What are the primary determinants of lung volumes?

Answer 14

Balanced interactions between lung and chest wall

NOTE: High recoil properties of the lung parenchyma shrink to approxiamtely 10% of TLC in the absence of chest wall. Recoil of lung parenchyma is opposed by external force of the chest wall, leading to an increase to approximately 60% of the TLC in the absence of lung parenchyma.

Question 15

The maximal amount of air that the lung-chest wall can hold is determined primarily by the force that can be generated by the ________.

Answer 15

Diaphragm

Question 16

When does inspiratory airflow stop?

Answer 16

Once the pressure gradient is absorbed.

NOTE: Once the inspiratory muscles can no longer generate force for the movement of air, as the volume increases, the ability to stretch further decreases.

Question 17

Residual volume

Answer 17

Volume of gas that remains in the lungs after maximal expiratory effort

Question 18

Functional residual capacity

Answer 18

Represents the volume of air within the lung-chest wall at a point where the two are balanced

*Each breath begins and ends at FRC

Question 19

Why does muscle weakness cause a reduction in FRC?

Answer 19

Becuase the lung elastic recoil exceeds the chest wall muscle force

Question 20

FRC is equal to..

Answer 20

The lung volume at which the outward recoil of the chest wall is equal to the inward elastic recoil of the lung

Question 21

Obstructions to airflow cause increases in FRC. Why?

Answer 21

Due to premature airway closure

REMEMBER: Each breath begins and ends with FRC

Question 22

What is a normal RV/TLC ratio?

Answer 22

Less than 0.25

Question 23

An elevated RV/TLC ratio is seen with both obstructive and restrictive pulmonary disease. Which component of the ratio is abnormal in obstructive pulmonary disease?

Answer 23

RV is elevated. Due to air trapping 2nd to airway obstruction

Question 24

An elevated RV/TLC ratio is seen with both obstructive and restrictive pulmonary disease. Which component of the ratio is abnormal in restrictive pulmonary disease?

Answer 24

Decreased TLC.

Question 25

Transmural pressure

Answer 25

Pressure difference between the pleural pressure and the barometric pressure

Question 26

During inspiration, what happens to the pleural pressure?

Answer 26

It becomes more negative due to an increase in chest wall volume

REMEMBER: Volume and pressure are inversely proportional

Question 27

If alveoli pressure is greater than the baromeric pressure, air will ______ (enter/leave) the alveoli.

Answer 27

Leave

*pressure flows from high concentration to low concentration

Question 28

Vital capacity

Answer 28

the maximum amount of air a person can expel from the lungs after a maximum inhalation

Question 29

Vital capacity calculations

Answer 29

Sum of inspiratory reserve volume, tidal volume, and expiratory reserve volume .

Question 30

The resting volume of the chest wall is approximately ______ % of vital capacity.

Answer 30

60

*Thus in the absence of the lungs the resting volume of the thorax would be approximately 60% of VC

Question 31

Below 60% of the VC, teh chest wall has an _________ (inward/outward) elastic recoil. Above 60% of the VC, the chest wall has an ____ (inward/outward) recoil tendency.

Answer 31

Outward; inward

NOTE: Above 60% of VC the chest wall has the same recoil tendency as the lungs

Question 32

Pressure responsible for distending the lungs.

Answer 32

Transpulmonary pressure

Question 33

Pressure tending to collapse the lung

Answer 33

Elastic recoil pressure

Question 34

The driving pressure for expiratory gas flow

Answer 34

Elastic recoil pressures (PEL)

Question 35

What is the relationship between the pressures listed below?

Transpulmonary pressure (PL)

Pleural pressure (PPL)

Alveolar pressure (PA)

Elastic recoil pressure (PEL)

Answer 35

• PA= PPL+ PEL
• PL= PA-PPL
• PL=PEL

Question 36

Why does the lung volume decrease in cases of pneumothorax?

Answer 36

The seal is broken. So inward recoil of the lung is no longer opposed by the outward spring of the chest wall. The lung volume will decrease and the alveoli of the affected side will collapse.

Question 37

In pneumothorax, chest wall will _________ (expand/collapse).

Answer 37

It will expand because it is no longer opposed by inward elastic recoil of the lung parenchyma

Question 38

When the diaphragm contracts, the thoracic volume _____ (increases/decreases)

Answer 38

Increases

NOTE: This would mean that the thoracic pressure decreases

Question 39

Surface tension

Answer 39

The attractive force that causes the molecules on the surface of a liquid to come together and form a layer

Question 40

Normal surface tension for lungs

Answer 40

25 dyn/cm

Question 41

Surfactant

Answer 41

Reduces surface tension to almost zero at the end of expiration

Question 42

What factors contribute to the elastic properties of the lung?

Answer 42

Elastin

Collagen

Surface tension

Question 43

Atelectasis

Answer 43

Collapse or closure of a lung resulting in reduced or absent gas exchange

Question 44

Law of LaPlace

Answer 44

P=2T/r

P= Pressure

T= Tension

r= radius

According to the law of LaPlace, if two bubbles have the same surface tension, the smaller bubble will have higher pressure

Question 45

The most abundant components in surfactant are ___ and ___________.

Answer 45

Dipalmitoyl phosphotidylcholine

Phoshotidylglygerol

Question 46

Surfactant is secreted by _______ cells.

Answer 46

Alveolar Type II

NOTE: These cells occupy aprroximately 2.7% of the alveolar gas exchanve surface area. Alveolar Type II cells are more plentiful.

Question 47

What is the standard treatment of respiratory distress syndrome?

Answer 47

Surfactant replacement therapy

Question 48

What is the importance of alveolar interpedendence?

Answer 48

• Increased stability of the alveoli
• Collapse of one alveolus is opposed by the surrounding alveolo which help to overt atelectasis
• Collateral ventilation

Question 49

________ is the resting volume of the lung and represents the point where the lung recoil and the chest wall are at equilibrium; no pressure difference across the respiratory system.

Answer 49

FRC

Question 50

What is the leading cause of Chronic obstructive pulmonary disease?

Answer 50

Smoking

Question 51

Symptoms of Chronic obstructive pulmonary disease

Answer 51

—Constant coughing, sometimes called “smoker’s cough”

—Shortness of breath while doing activities you used to be able to do

—Excess sputum production

—Feeling like you can’t breathe

—Not being able to take a deep breath

—Wheezing

Question 52

___________is an early diagnostic tool for COPD.

Answer 52

Spirometry

NOTE : Spirometry is great for early detection

Question 53

Amount of air moving into and out of the lung during quiet respiration.

Answer 53

Tidal volume

Question 54

Normal tidal volume

Answer 54

500 mL

Question 55

Additional volume that you can maximally inspire beyond tidal volume

Answer 55

Inspiratory Reserve Volume

Question 56

Normal Inspiratory Reserve Volume

Answer 56

3000 mL

Question 57

Maximum amount of air that can be forcefully expelled at the end of a normal expiration

Answer 57

Expiratory Reserve Volume

Question 58

Normale expiratory Reserve volume

Answer 58

1100 mL

Question 59

Volume of air remaining in the lungs after a maximal expiratory effort

Answer 59

Residual volume

Question 60

Normal residual volume

Answer 60

1200 mL

Question 61

How are the following lung capacities calculated?

Inspiratory Capacity (IC)

Vital Capacity (VC)

Functional residual capacity (FRC)

Total Lung Capacity (TLC)

Answer 61

• IC= Tidal volume + Inspiratory Reserve Volume
• VC= Tidal volume + Inspiratory reserve volume + Expiratory reserve volume
• FRC= Residual volume + Expiratory reserve volume
• TLC= Vital capacity+ Residual Volume

Question 62

Normal Inspiratory capacity

Answer 62

3500 mL

Question 63

Normal vital capacity

Answer 63

4600 mL

Question 64

Normal function residual capacity

Answer 64

2300 mL

Question 65

Normal TLC

Answer 65

5800 mL

Question 66

Spirometry & the spirogram tracing

Answer 66

Question 67

What does a plethysmography (body box) measure?

Answer 67

The amount of air remaining in teh lungs after a normal exhalation including gas that gets trapped during premature airway closure. This distorts the FRC and makes its appear larger

NOTE: The FRC would appear lower when using the helium dilution technique. The two test only product similar results in normal subjects

Question 68

What does the helium dilution technique measure?

Answer 68

The functional residual capacity of the lungs.

Question 69

How do you calculate the lung volume using the helium dilution technique?

Answer 69

V2= [V1 (C1-C2)]/ [C2]

V2= Lung Volume

V1= Helium Volume

C1= Helium Concentration

C2= Diluted helium concentration

Question 70

What does the nitrogen-wash out techinque measure?

Answer 70

The dead space of the lungs

V1C1=V2C2

Question 71

What does the effort- dependent forced vital capacity maneuver identify?

Answer 71

Normal, obstructive, and restrictive ventilatory disease states

Question 72

_____________ is a volume/time curve that shows the volume of exhaled air plotted against time.

Answer 72

Spirogram

Question 73

What tests are reported by the spirogram?

Answer 73

1. The forced vital capacity (FVC); volume in liters
2. The forced expiratory volume in 1 second (FEV1).
3. The ratio of the FEV1 to the FVC (FEV1/FVC).
4. The average mid-maximal expiratory flow (MMEF) of more commonly referred to as the FEF25-75

Question 74

How is the FVC maneuver performed?

Answer 74

The subject stands or sits and initially inspires to TLC while connected to a spirometer

Question 75

What are the 3 major determinants of maximal air flow during inspiration?

Answer 75

• Force generated by inspiratory muscles
• Increase of static recoil pressure of the lung
• Airway resistance

Question 76

When is inspiratory force greatest?

Answer 76

At RV, then force decreases as lung volume increases above RV

Question 77

What are the determinants of maximal expiratory flow?

Answer 77

• Increases in effort (effort dependent)
• Modest effort (effort independent)

Question 78

When does maximal expiratory flow occur?

Answer 78

During the first 20% of the FVC maneuver

Question 79

What are important elements of a well-performed FVE maneuver?

Answer 79

• Rapid Rise
• Smooth decrease in expiratory flow
• A decrease in flow to the baseline

Question 80

What happens to the FEV1/FVC ratio in obstructive disease?

Answer 80

Decreased, due to a decrease in FEV1

Question 81

What is PEFR?

Answer 81

Peak-expiratory flow (for the FVC maneuver)

Question 82

What happens to the FEV1/FVC ratio in restrictive disease?

Answer 82

The ratio should be about normal or maybe slightly elevated because both the FEV1 and FVC are reduced.

Question 83

Aside from a decrease in FEV1, what other signs are seen on spirogram of a patient with asthma or emphysema?

Answer 83

• High residual volume
• High functional residual capacity
• Low vital capacity

NOTE: Though Bronchitis is considered an obstructive disorder, it rarely cause a high RV.

Question 84

____________ is a disease characterized by dilation of the alveolar spaces and descruction of the alveolar walls.

Answer 84

Emphysema

NOTE: In cases of emphysema, compliance is increased and elasticity is decreased. So the lung becomes easy to distend but empties slowly.

Question 85

How is the pressure gradient related to the air flow in emphysema?

Answer 85

Air flow is reduced in emphysema because the diaphragm is less efficient at generating pressure gradients that are necessary for breathing.

Question 86

What are the test results of restrictive disease?

Answer 86

• Low TLC
• Low FRC
• Low RV
• Normal FEV1/FVC

Question 87

Bronchitis

Answer 87

A condition which is clinically defined as a chronic cough with mucus production most months of the year

NOTE: The mucus secretions and inflammation in the bronchi tend to narrow the airways and provide an obstacle to airflow, thus increasing the resistance of the airways

Question 88

What is a normal FEV1/FVC ratio?

Answer 88

90-95%

Question 89

Why does bronchitis rarely result in a high RV?

Answer 89

Because the air flow obstruction found in bronchitis due to increased resistance, which does not generally cause the airways to collapse prematurely and trap air in the lungs.

Question 90

What are the test results for asthma?

Answer 90

• Decreased maximal expiratory air flow
• Decreased FVC
• Decreased FEV1
• Decreased FEV1/FVC ratio

NOTE: With asthma, significant effort is required to create an extremely negative pleural pressure

Question 91

Characteristics of asthma

Answer 91

• Airway hyper-responsiveness
• Reversible increases in bronchial smooth muscle tone
• Inflammation of the bronchial mucosa
• Broncho-spasm, which leads to increased airway resistance

Question 92

Normal Values for Lung Volumes and Pulmonary Function mechanics

Answer 92

Question 93

Lung Volume Abnormalities in Obstructive and Restrictive Pulmonary Diseases

Answer 93

Question 94

Causes of Abnormal Vital Capacity

Answer 94

Question 95

FRC ________ (increases/decreases) with age.

Answer 95

Increases

*This is associated with the decrease in elasticity

Question 96

With age, there is a _______ (decrease/increase) in arterial tension.

Answer 96

Decrease

*This is as a result of ventilation-perfusion mismatch

Question 97

Constrast the reflective events that occur early in the FVC maneuver with the events that occur late in the FVC maneuver.

Answer 97

Early

• Large airway function
• Effort dependent

Late

• Small airway function
• Effort independent