Respiratory Physiology

Question 1

External Respiration

Answer 1

Integration of the respiratory and CVS systems allowing movement of gases between air and the cells

Question 2

Normal respiratory rate

Answer 2

10-20 breaths a minute

Question 3

Patency

Answer 3

How open an airway is

Question 4

Alveoli

Answer 4

Site of gas exchange in the lungs

Question 5

Type I pneumocyte

Answer 5

Simple squamous epithelium for gas exchange

Question 6

Type II pneumocyte

Answer 6

Produces surfactant (reduces surface tension)

Question 7

Type of epithelium in respiratory tract

Answer 7

Pseudo-stratified columnar epithelium that is ciliated and glandular

Question 8

Goblet cells

Answer 8

Produce mucous

Question 9

Boyle’s Law

Answer 9

Pressure exerted by a gas is inversely proportional to its volume

Question 10

Henry’s Law

Answer 10

Amount of gas dissolved in a liquid is determined by pressure of gas and solubility in the liquid

Question 11

Dalton’s Law

Answer 11

Total pressure of a gas mixture is the sum of the pressures of the individual gases

Question 12

Alveolar Pressure

Answer 12

Pressure inside the lungs

Question 13

Intra-pleural pressure

Answer 13

Pressure inside the pleural cavity (always negative)

Question 14

Trans-pulmonary pressure

Answer 14

Difference between alveolar pressure and intra-pleural pressure

Question 15

Muscles of Inspiration

Answer 15

Diaphragm and external intercostals

Question 16

Muscles of expiration (forced)

Answer 16

Internal intercostals and abdominal muscles

Question 17

Accessory muscles

Answer 17

Scalene and sternocleidomastoids

Question 18

Tidal Volume

Answer 18

Volume of air breathed in and out of lungs at each breath

Question 19

Expiratory Reserve Volume

Answer 19

Maximum volume of air which can be expelled from lungs at end of normal expiration

Question 20

Inspiratory Reseve Volume

Answer 20

Maximum volume of air which can be drawn into the lungs at end of normal inspiration

Question 21

Residual Volume

Answer 21

Volume of gas in the lungs at the end of a maximal expiration

Question 22

Vital Capacity

Answer 22

Tidal volume + IRV + ERV

Question 23

Total lung Capacity

Answer 23

Vital capacity + reserve volume

Question 24

Inspiratory capacity

Answer 24

TV + IRV

Question 25

Functional Residual Capacity

Answer 25

Expiratory reserve volume + residual volume (amount of air normally in lungs at end of expiration)

Question 26

Anatomical dead space

Answer 26

Volume of gas occupied by the conducting airways and not available for gas exchange

Question 27

Volume

Answer 27

Amount of air moved in a single expiration

Question 28

Capacity

Answer 28

2 or more volumes added together

Question 29

Pulmonary Ventilation

Answer 29

Total air movement into and out of lungs (L/min)

Question 30

Alveolar Ventilation

Answer 30

Volume of fresh air moving into lungs and therefore available for gas exchange (L/min)

Question 31

Hyperventilation

Answer 31

More air reaches alveoli (large tidal volume)

Question 32

Hypoventilation

Answer 32

Less air reaches alveoli (small tidal volume)

Question 33

Partial Pressure

Answer 33

Pressure of a gas in a mixture of gases (equivalent to % of the gas in the mixture x pressure of whole mixture)

Question 34

Infant respiratory distress syndrome

Answer 34

Baby struggles to breathe due to lack of surfactant production in lungs

Question 35

Compliance

Answer 35

Change in volume relative to a change in pressure

Question 36

Obstructive Lung Diseases

Answer 36

Obstruction of air flow in lungs, especially during expiration

Question 37

Restrictive Lung Diseases

Answer 37

Loss of lung compliance

Question 38

Static Spirometry measurement

Answer 38

Only considers volume exhaled

Question 39

Dynamic Spirometry measurement

Answer 39

Considers volume exhaled and time taken to do so

Question 40

FEV1

Answer 40

Maximum volume of air expired in 1 second

Question 41

FVC

Answer 41

Maximum volume of air that can be expired

Question 42

FEF25-75

Answer 42

Average expiratory flow over the middle portion of a FVC

Question 43

Pulmonary Circulation

Answer 43

Delivers CO2 from heart to lungs and O2 from lungs to heart

Question 44

Systemic Circulation

Answer 44

Delivers O2 from heart to body and CO2 from body to heart

Question 45

Bronchial Circulation

Answer 45

Part of systemic circulation that supplies lungs and airways

Question 46

Shunt

Answer 46

Blood moves from right to left side of heart without being oxygenated

Question 47

Alveolar Dead Space

Answer 47

When fresh air in alveoli is not being adequately perfused and oxygen is not reaching blood

Question 48

Physiological dead space

Answer 48

All the air not taking place in gas exchange (anatomical dead space and alveolar dead space)

Question 49

Cooperative binding

Answer 49

When 1 molecule binds it increases the affinity of the other binding sites for other molecules of the same substance

Question 50

Myoglobin

Answer 50

Haemoglobin in which the beta chains have been replaced by delta chains, acts as store of oxygen in muscle cells.

Question 51

Foetal haemoglobin

Answer 51

Haemoglobin present in fetus, beta chains replaced by gamma chains. Allows fetus to take oxygen from mother.

Question 52

Anaemia

Answer 52

Any condition where the oxygen carrying capacity of blood is decreased,.

Question 53

2-3-diphosphoglycerate

Answer 53

Substance produced by erythrocytes as a response of inadequate oxygen supply and decreases Hb affinity for oxygen.

Question 54

CO poisoning

Answer 54

Caused by CO binding to Hb with an affinity 250 times greater than O2. Causes cherry red skin and mucous membrane, hypoxia (cell death), anaemia and nausea.

Question 55

Hypoxic Hypoxia

Answer 55

Reduction in oxygen diffusion at lungs due to decreased PP of O2 in atmosphere or tissue pathology

Question 56

Anaemic Hypoxia

Answer 56

Reduction in oxygen carrying capacity of blood due to anaemia

Question 57

Ischaemic hypoxia

Answer 57

Heart disease resulting in inefficient pumping of blood

Question 58

Histotoxic hypoxia

Answer 58

Poisoning prevents cell utilising oxygen delivered to them

Question 59

Metabolic hypoxia

Answer 59

Oxygen delivery to tissues does not meet increased oxygen demand by cells

Question 60

chloride shift

Answer 60

Movement of bicarbonate ions into plasma and Cl ions into RBCs during transport of CO2 as carbonic acid.

Question 61

Respiratory acidosis

Answer 61

Decrease in pH of blood due to CO2 retention as a result of hypoventilation

Question 62

Respiratory alkalosis

Answer 62

Increase in pH of blood due to CO2 expiration as a result of hyperventilation

Question 63

Dorsal Respiratory group

Answer 63

Sets automatic rhythm of breathing and innervates muscles of inspiration

Question 64

Ventral respiratory group

Answer 64

Innervates muscle of expiration, pharynx, larynx and tongue

Question 65

Central chemoreceptors

Answer 65

Response directly to H ion conc of CSF (PP of CO2) and modulate primary respiratory drive

Question 66

peripheral chemoreceptors

Answer 66

Carotid and aortic bodies that respond to H ion conc in plasma and PaO2

Question 67

Hypercapnea

Answer 67

Abnormally high levels of CO2 in blood

Question 68

Hypoxic Drive

Answer 68

Basal respiratory rate is controlled by peripheral chemoreceptors detecting PaO2

Question 69

Respiratory acidosis/alkalosis

Answer 69

Disturbance in pH of blood due to disturbance in respiratory system