Respiratory Physiology 1 + 2

Question 1

What are the functions of the respiratory system?

Answer 1

Gas exchange
Acid base balance - regulation of body pH
Protection from infection
Communication via speech

Question 2

Why is gas exchange so important?

Answer 2

Need to produce energy
Oxygen is metabolised p and produces CO2 as a waste product

Question 3

What does the ability of tissues to transform fuel stored as chemical energy to physical energy depend on?

Answer 3

Integration of the CVS
Respiratory systems to deliver fuel to active cells within the tissues and remove waste products

Question 4

What is cellular/internal respiration?

Answer 4

Biochemical process that releases energy from glucose via glycolysis or oxidative phosphorylation
Oxidative respiration requires oxygen and depends on external respiration

Question 5

What is external respiration?

Answer 5

Movement of gases between the air and the body’s cells via both the respiratory and cardiovascular systems

Question 6

What is the pulmonary circulation?

Answer 6

Delivers CO2 to the lungs
Collects O2 from the lungs
Consists of the pulmonary artery that carries deoxygenated blood and pulmonary vein which carries oxygenated blood

Question 7

What does increased energy demand by working muscle lead to?

Answer 7

Increased rate and depth of breathing which speeds up substrate acquisition and waste disposal
Increased rate and force of contraction of heart which speeds up substrate delivery to muscle and waste removal via blood

Question 8

What is the net volume of gas exchanged in the lungs per unit time?

Answer 8

In steady state - 250ml/min O2: 200ml/min CO2
Equal to net volume exchanged in the tissues

Question 9

What is average respiration rate?

Answer 9

12-18 breaths per min at rest
Can reach 40-45 at max. when exercising as an adult

Question 10

What does the respiratory system consist of?

Answer 10

Nose
Pharynx
Epiglottis
Trachea
Larynx
Lung
Bronchus

Question 11

What does the upper respiratory tract consist of?

Answer 11

Pharynx, nasal cavity, tongue, vocal cords, oesophagus and larynx

Question 12

What does the lower respiratory system consist of?

Answer 12

Trachea, left lung, right lung, left bronchus, right bronchus and diaphragm
It is enclosed in the thorax, bounded by the ribs , spine and diaphragm

Question 13

What does right lung consist of?

Answer 13

Superior lobe
Horizontal fissure
Middle lobe
Oblique fissure
Inferior lobe

Question 14

What does the left lung consist of?

Answer 14

Superior lobe
Oblique fissure
Inferior lobe

Question 15

Describe the branching of airways?

Answer 15

The trachea branches into two bronchi. Each bronchi branches 22 more times which finally terminates in a cluster of alveoli. The trachea, primary bronchus and secondary bronchus are semi riding tubes that have c shaped rings of cartilage to maintain patency

Question 16

How is patency maintained in the bronchioles and alveoli?

Answer 16

There is no cartilage so it is maintained by physical forces in the thorax

Question 17

What is different between the left and right bronchi?

Answer 17

The right bronchi is wider and more vertical so more common for aspirated foreign bodies commonly lodge here

Question 18

Explain airway branching and resistance to air flow

Answer 18

More resistance to air flow happens in the conducting zone compared to the respiratory zone as there is more branching in the respiratory zone. It can be altered by activity of bronchial smooth muscle:
Contraction decreases diameter - resistance increases
Relaxation increases diameter. - resistance decreases

Question 19

What are elastic fibres responsible for?

Answer 19

Elastic fibres surround the alveoli. They allow expansion and contraction when breathing and loss of the elasticity can lead to emphysema.

Question 20

Explain type l alveoli cells

Answer 20

Responsible for gas exchange
They are in bulk of the alveolar wall

Question 21

Explain type ll cells

Answer 21

Synthesise surfactant which makes breathing easier

Question 22

What is tidal volume?

Answer 22

The volume of air breathed in and out of the lungs at each breath when at rest

Question 23

What is expiratory reserve volume?

Answer 23

The max. amount of air which can be expelled from the lungs at the end of of a normal expiration

Question 24

What is inspiratory reserve volume?

Answer 24

The max. amount of air which can be drawn into the lungs at the end of a normal inspiration

Question 25

What is residual volume?

Answer 25

The volume of gas in the lungs at the end of a max. expiration

Question 26

What is vital capacity?

Answer 26

Tidal volume plus inspiratory reserve volume plus expiratory reserve volume

Question 27

Explain the pleural cavities of the lung

Answer 27

Each lung is enclosed in two pleural membranes. The pleural fluid and space is very small. There is the parietal pleura which is superficial to the visceral pleura. The visceral pleura is closest to the lungs

Question 28

What does the pleural fluid between the pleural walls allow?

Answer 28

The pleura are able to cross each other when breathing as the fluid allows this with no friction.
It also holds the pleura together - harder to separate.
Sticks the lungs to the diaphragm

Question 29

Explain the sticking of the lungs to the rib cage

Answer 29

Visceral pleura is stuck to the surface of the lungs
Visceral pleura is stuck to the parietal pleura via the cohesive forces of pleural fluid
Parietal pleura is stuck to rib cage and the diaphragm
The chest wall therefore leads the expansion of the lung during inspiration

Question 30

Explain the Boyle’s law

Answer 30

States that the pressure exerted by a gas is inversely proportional to its volume
Gases move from areas of high pressure to areas of low pressure

Question 31

Explain the muscles used in inspiration

Answer 31

Include the diaphragm, external intercostals, sternocleidomastoids and scalenes
Mainly the first two

Question 32

Explain the muscles used in expiration

Answer 32

Expiration is passive at rest, but uses intercostal and abdominal muscles during severe respiratory load

Question 33

Explain the diaphragm as a mechanism for breathing

Answer 33

Diaphragm contrasts, thoracic volume increases during inspiration - airways are pulled open by physical forces of inspiration
Diaphragm relaxes, thoracic volume decreases during expiration - airways are compressed by physical forces of expiration

Question 34

Describe the pump motion of the intercostal muscles

Answer 34

Increases anterior posterior dimension of the rib cage

Question 35

Describe the bucket handle motion of the intercostals

Answer 35

Increases the lateral dimension of the rib cage

Question 36

What is the intra-thoracic (alveolar) pressure

Answer 36

Pressure inside the thoracic cavity - pressure inside the lungs
May be positive or negative compared to the atmosphere pressure
Inspiration is negative
Expiration is positive

Question 37

What is the intra-pleural pressure?

Answer 37

Pressure inside the pleural cavity
Typically negative compared to the atmospheric pressure

Question 38

What is the transpulmonary pressure?

Answer 38

Difference between the alveolar pressure and the intra-pleural pressure
Almost always positive because the Pip is negative
Pt = Palv - Pip

Question 39

What is the intrapleural pressure of a normal lung at rest?

Answer 39

-3mm Hg which is subatmospheric

Question 40

Describe the importance of the relationship between pleural membranes in pneumothorax

Answer 40

If sealed pleural cavity is opened to the atmosphere then air flows in
The air moves from higher Patmos to lower Pip to equalise the pressure
The relationship between the 2 membranes is lost and affected lung becomes useless
Lung collapses to unstretched size

Question 41

Describe bulk flow of air between the atmosphere and alveoli

Answer 41

Is proportional to the atmospheric and alveolar pressures
Is inversely proportional to the airway resistance
F = (Patm - Pa)/R

Question 42

How is a subatmospheric pressure intrapleural pressure created?

Answer 42

Between breaths at the end of unforced expiration - no air is flowing and the dimensions of the lungs and thoracic cage are stable as a result of opposing elastic forces
The lungs are stretched and are attempting to recoil whereas the chest wall is compressed and attempting to move outward
A transpulmonary pressure opposes the forces of elastic recoil

Question 43

Explain airway resistance

Answer 43

Determines how much air flows into the lungs at any given pressure difference between atmosphere and alveoli
The major determinant of airway resistance is the radii of the airways

Question 44

What is surfactant?

Answer 44

Detergent like fluid produced by Type II alveolar cells
Reduces surface tension on alveolar surface membrane and reduces tendency of alveoli to collapse
Increases lung compliance and makes breathing easier

Question 45

Is surfactant more effective in small or large alveoli?

Answer 45

Smaller alveoli
Because surfactant molecules come closer together and are therefore more concentrated

Question 46

Explain surface tension

Answer 46

Is on alveolar surface membrane and makes tendency for alveoli to collapse
Surface tension occurs where ever there is a air-water interface and refers to attraction between water molecules

Question 47

What happens when there is no surfactant on alveolar membrane of a smaller and larger alveoli?

Answer 47

Pressure is greater in the smaller alveolus due to the law of LaPlace
The small alveoli then collapses as more effort would be required to keep inflated
Air moves into larger alveolus and now there is less surface area for gas exchange

Question 48

Importance of surfactant between small and large alveoli

Answer 48

Surfactant reduces surface tension
Pressure us equalised in the large and small alveoli as surfactant more concentrated in smaller alveolus
Tendency to collapse is now reduced

Question 49

When does surfactant production start?

Answer 49

Starts at 25 weeks gestation
Complete by 36 weeks (40weeks so full term)
Stimulated by thyroid hormones and cortisol which increase at end of pregnancy

Question 50

What syndrome can premature babies have to do with their lungs?

Answer 50

Infant Respiratory Distress Syndrome (IRDS)

Question 51

What us the difference between saline filled lung compared to lung inflation post-birth?

Answer 51

Less change in pressure is required to inflate the lungs in the uterus as do not need to overcome surface tension because no air-water interface
More pressure needed to fill lungs post birth so breathing is easier in uterus

Question 52

Explain the term compliance

Answer 52

Change in the volume relative to change in pressure
Represents the stretchability of the lungs not the elasticity
High compliance = large increase in lung volume for small decrease ip pressure so not much effort is needed to give large volume in the thoracic cavity