Physiology Consequences Of Lung Diseases

Question 1

What is ventilation?

Answer 1

Exchange of gas between the air and the atmosphere.

Question 2

What is perfusion?

Answer 2

Delivery of RBCs carrying oxygen to the lung tissues.

Question 3

What is the V/Q ratio?

Answer 3

Ratio of ventilation to perfusion which should be greatest at the apex of the lung where there is higher ventilation than perfusion.

Question 4

What are the components of the pulmonary system?

Answer 4

Respiratory drive
Ventilation
Perfusion
DIffusion

Question 5

What is capacity?

Answer 5

Maximum spontaneous ventilation which can be maintained without respiratory muscle fatigue. This can be reduced by disease processes.

Question 6

What are the components of lung capacity?

Answer 6

Tidal volume
Inspiratory reserve volume
Expiratory reserve volume
Residual volume

Question 7

Which measures are associated with ventilation?

Question 8

What is Td?

Answer 8

Volume of air moving in and out of the lungs in one breath.

Question 9

What is Inspiratory reserve volume?

Answer 9

Volume of air which can be forcefully inspired above the tidal volume

Question 10

What is expiratory reserve volume?

Answer 10

Volume of air which can be expired beyond the tidal volume.

Question 11

What is residual volume?

Answer 11

Volume of air remaining in the lungs which can’t be expelled after maximum expiration in order to keep the alveoli inflated.

Question 12

What is functional residual capacity?

Answer 12

Volume of air remaining in the lungs after passive expiration which includes:
Expiratory reserve volume + Residual volume

Question 13

What is Vital capacity?

Answer 13

Maximum air which can be exhaled after air being forcibly exhaled.

Question 14

What is the normal lung capacity of an adult?

Answer 14

600ml.

Question 15

What is FEV1?

Answer 15

Forced expiratory volume in one second

Question 16

What is FVC?

Answer 16

Identical to vital capacity and the maximum volume of air which an be exhaled.

Question 17

What is minute volume?

Answer 17

Amount of air entering the lungs in one minute.
Tidal volume x respiratory rate

Question 18

What is alveolar ventilation?

Answer 18

Exchange of gases between the alveolar and the external environment.
(Tidal volume - dead space)

Question 19

How does inspiration occur?

Answer 19

Active process of inspiration with contraction of the muscles and passive relaxation in expiration.

Question 20

What is airway resistance?

Answer 20

Resistance of airflow through the respiratory tract during inspiration and expiration.

Question 21

What is compliance?

Answer 21

Ability of the lungs to stretch and expand, which relies on the production of surfactant and elastic fibres. It is altered by disease of the lungs such as fibrosis or emphysema which limits their ability to expand or reduces surfactant production. This will mean change in pressure is required for change in volume of lungs.

Question 22

What is Fick’s law of diffusion?

Answer 22

Diffusion of a gas across an alveolar membrane is dependent on difference in gas pressure and the size of tissue so it increases with:
Gas solubility e.g CO2> O2
Increased membrane surface area
Increased pressure difference

Question 23

What limits gas exchange between blood and tissue?

Answer 23

Blood capillary transit time
Time available for blood-tissue gas exchange before blood leaves the tissue

Question 24

Where is V/Q ratio greatest in the lungs?

Answer 24

Apex which has a low perfusion due to a low perfusion and pulmonary intravascular pressure as a result of gravity when standing upright. Ventilation is higher than perfusion here so V/Q ratio is high.

** Alveoli are larger here.**

Question 25

Where is V/Q ratio lowest in the lungs?

Answer 25

Base of the lungs which has a greater perfusion than ventilation rate when a person is upright, due to its close position to the heart. They have smaller alveolar and greater blood flow. The V/Q ratio is lower.

** Alveoli are smaller here**

Question 26

How do the lungs respond to alveolar hypoxia?

Answer 26

Pulmonary arteries undergo vasoconstriction to divert blood to essential areas and away from high oxygen areas. This ensures there is ventilation-perfusion matching so even the highly oxygenate dblood leaving the lungs undergoes ventilation.

Question 27

What is a peak flow meter?

Answer 27

Measures flow rates that are dependent on the radius of the vessel. These are typically measurements of FEV1 and FVC for asthma patients.

Question 28

What is spirometers used for?

Answer 28

Testing lung function

Question 29

How can gas exchange be measured?

Answer 29

Patient inspires carbon monoxide- measure the concentration changes following this which reflects absorption and thickness of alveolar membrane.

Question 30

How can perfusion be measured?

Answer 30

Assess blood vessels via:
CT pulmonary angiogram
Echocardiogram for intravascular shunt

Question 31

How is the respiratory system examined?

Answer 31

Respiratory rate
Central cyanosis
Accessory muscle use
Chest movements
Breath sounds

Question 32

What is pulse oximetry?

Answer 32

Indirect measure of blood oxygen in a patient using a finger scanner, with limited accuracy.

Question 33

What is a tripod posture?

Answer 33

Sign of respiratory distress where a person is hunched over with their hands on their knees, using their accessory muscles.

Question 34

What does oxygen saturation measure?

Answer 34

Measure haemoglobin bound to oxygen which should be between 95% and 100%, indicating PaO2 is 10-12 kPA.

Oxygen saturation of 90% indicates pO2 is kPA so it is severely compromised

Question 35

How are CO2 levels regulated?

Answer 35

Highly sensitive central chemoreceptors located in the medulla between the 9th and 10th cranial nerve that are responsible for the respiratory drive by inducing ventilation.

Question 36

How are O2 levels regulated?

Answer 36

Peripheral chemoreceptors in the carotid sinus and aortic arch which are less sensitive. Patients with Type 2 respiratory failure are dependent on these receptors for respiratory drive so oxygen therapy should be avoided.

Question 37

How are HCO3- levels regulated?

Answer 37

Kidneys in the buffer system.

Question 38

How can blood gases be taken?

Answer 38

Radial artery.

Question 39

What is obstructive lung disease?

Answer 39

Reduced airflow results in difficulties with expiration, trapping air in the lungs and results in patients being prone to hyperinflation and airways are prone to collapse.

Question 40

What is restrictive lung disease?

Answer 40

Loss of lung elasticity or lung compliance to the chest wall which reduces inspiration capacity. Typically occurs in pulmonary fibrosis where there are thickened, fibrotic alveolar macrophages.

Question 41

What are the features of obstructive lung fdisease?

Answer 41

They have a reduced FEV1 but FVC is normal or reduced so the FEV1/FVC ratio is low and below 0.7.

Gas trapping can occur and cause hyperinflation. There is normal diffusion and normal perfusion typically unless alveoli are affected, such as emphysema. Obstructive lung diseases can result in a state of hypoxaemia and this can cause right heart pulmonary heart failure due to cor pulmonale.

Question 42

What is cor pulmonale?

Answer 42

Enlargement/failure of the right side of the heart due to hypertension of the pulmonary artery supplying blood to the lungs. This occurs in obstructive heart failure because there is a state of hypoxaemia so vascular resistance increases via vasoconstriction of the pulmonary artery to compensate. Results in raised venous pressure and oedema.

Question 43

What are the features of restrictive lung disease?

Answer 43

Both FEV1 and FVC are reduced, which is below 0.75 but FEV1/FVC ratio is normal.

Thickness of the alveolar membrane impairs diffusion and results typically in Type 1 respiratory failure and CO2 rises in the pre-ventilatory stage. Perfusion remains normal.

Question 44

What conditions are associated with restrictive lung disease?

Answer 44

Pulmonary fibrosis
Obesity
Chest wall deformities
Neuromuscular deformities

Question 45

What conditions are associated with obstructive lung disease?

Answer 45

Asthma
COPD
Bronchieactasis

Question 46

How does pulmonary oedema affect V/Q ratio?

Answer 46

Fluid build up reduces gas exchange in the lungs, lowering ventilation and causing low V/q ratio.

Question 47

What is v/q mismatch?

Answer 47

When there is a greater ventilation or perfusion that creates a mismatch.

Question 48

What is the consequence of low ventilation in V/Q mismatch?

Answer 48

There is reduced oxygen delivery which causes a rise in pCO2 levels. This can lead to hyperventilation and hypoxia vasoconstriction, to divert blood to better ventilated areas.

Question 49

Which conditions cause low perfusion in V/Q mismatch?

Answer 49

Pulmonary embolism due to blood clot
Late stage COPD due to capillary damage
Emphysema due to reduced blood flow
Heart disease due to pulmonary artery hypertension reducing perfusion
Cardiac shunt

Question 50

Which conditions cause low ventilation in V/Q mismatch?

Answer 50

Reduced airflow with:
Pulmonary oederna
Chronic bronchitis
Asthma
Pneumonia
Aspiration

Question 51

What is ventilatory capacity?

Answer 51

Maximum ventilation that can occur spontaneously without respiratory muscle fatigue.

Question 52

What is ventilatory demand?

Answer 52

Minute ventilation required to maintain a normal pCO2.

Question 53

What is Pouiselle’s law?

Answer 53

Equation describing factors which affect blood flow:
Q = change in pressure x radius / 8 x length

This can be used to determine laminar flow.

Question 54

What is the equation for flow?

Answer 54

Flow = change in pressure / radius

Question 55

How can gas exchange be measured?

Answer 55

Method of transfer factor, where patient inspires a low concentration of carbon monoxide, and the concentration change is measured after a 10 second breath hold. It’s also known as spirometry or DLCO.

Question 56

How can perfusion be measured?

Answer 56

Echocardiogram
CT angiogram

Question 57

When is arterial puncture indicated?

Answer 57

For blood gas of below 92%, to measure arterial blood gas.

Question 58

What are the causes of restrictive lung disease?

Answer 58

Conditions which limit lung expansion such as:
Rib cage fractures
Pulmonary fibrosis due to silicosis or exposure to asbestos
Obesity
Neuromuscular disorders which affect intercostal muscles

Question 59

What is idiopathic pulmonary fibrosis?

Answer 59

Lung tissue becomes scarred and affects the intersititum and parenchyma.