Respiratory System

Question 1

What is Tidal Volume?

Answer 1

Volume of air breathed in or out per breath

Increase during exercise

Question 2

What is Inspiratory Reserve Volume (IRV)?

Answer 2

Volume of air that can be forcibly inspired after a normal breath (tidal volume)

Decreases during exercise

Question 3

What is Expiratory Reserve Volume (ERV)?

Answer 3

Volume of air that can be forcibly expired after a normal breath (tidal volume)

Slightly decreases during exercise

Question 4

What is Residual Volume?

Answer 4

The amount of air that remains in the lungs after maximal expiration.

Remains the same during exercise

Question 5

What is Minute Ventilation?

Answer 5

Volume of air breathed in or out per minute.

Big increase during exercise

Question 6

What is partial pressure?

Answer 6

The pressure exerted by an individual gas when it exists within a mixture of gases.

Question 7

What is breathing frequency?

Answer 7

The number of breaths per minute (breaths per minute)

Question 8

Minute ventilation formula

Answer 8

Minute ventilation =

Breathing frequency x Tidal Volume

Question 9

What structures are in the respiratory system?

Answer 9

• Lung
• Heart
• Diaphragm
• Trachea
• Bronchi
• Pulmonary Arteriole
• Bronchioles
• Alveoli
• Pulmonary Vein

Question 10

Explain gas exchange at the alveoli

Answer 10

At the alveoli oxygen diffuses from a highly concentrated area ,where it has a high partial pressure, to an area of low concentration (the blood) where the partial pressure is lower.

CO2 diffuses in the other direction.

Question 11

Why is gas exchange at the alveoli efficient?

Answer 11

• Large number of alveoli
• Large number of capillaries
• Thin membrane between alveoli and capillary

Question 12

Explain gas exchange at the muscles

Answer 12

At rest there is a small arteriovenous difference. When exercising, there is a arteriovenous difference, which increases the pressure gradient for gas diffusion.

Question 13

What happens to gas exchange pressure gradient during exercise?

Answer 13

As exercise intensity increases, there is a larger pressure gradient between the CO2 and O2 levels at the sites of gas exchange.

Question 14

Explain dissociation of oxyhemoglobin

Answer 14

In a high partial pressure of oxygen (the lungs), oxygen binds more readily to haemoglobin.

As this partial pressure decreases (exercising muscles) oxygen is more readily released.

As exercise intensity increases, the partial pressure of oxygen decreases and so oxygen is easily released from haemoglobin.

Question 15

What is the respiratory control centre?

Answer 15

The respiratory control centre of the brain is made up of the inspiratory control centre and the expiratory control centre.

These two centres work together to regulate breathing at rest and during exercise without conscious thought.

They require different receptors to send them information in order to control breathing rate.

Question 16

How do neural factors regulate breathing rate?

Answer 16

The respiratory centres regulate breathing rate by increasing or decreasing respiratory muscle activation through sympathetic or parasympathetic stimulation.

Question 17

What receptors is neural stimulation dependent on?

Answer 17

• Proprioceptors
• Baroreceptors
• Thermoreceptors

Question 18

What do thermoreceptors do?

Answer 18

Detect changes in temperature

Question 19

What do Baroreceptors do?

Answer 19

Detect changes in blood pressure.

Question 20

What do Proprioceptors do?

Answer 20

Detect movement, tension and force.

Question 21

What do chemoreceptors do?

Answer 21

Detect changes in blood acidity.

Question 22

What is sympathetic vs parasympathetic system?

Answer 22

Sympathetic is fight or flight responses

Parasympathetic is rest and digest responses

Question 23

How do chemical factors regulate breathing rate?

Answer 23

Chemoreceptors in the aorta and medulla oblongata detect changes in blood pH level.

As CO2 increases, breathing rate increases as a result of stimulation from the inspiratory control centre.

Question 24

How do hormonal factors regulate breathing rate?

Answer 24

Breathing rate can be increased by the release of the hormone adrenaline from the adrenal glands

Question 25

Impacts of smoking on respiration

Answer 25

Increased:
- Risk of asthma
- Risk of bronchitis
- Risk of lung cancer
- Risk of asthma attack during exercise
- Risk of cardiovascular disease
- Risk of emphysema

Decreased:
- Movement of oxygen through airways
- Transportation of oxygen in blood
- Cardiovascular endurance
- Ability to be active
- Intensity if exercise can be tolerated

Damaged alveoli

Question 26

Tidal volume definition

Answer 26

The amount of air normally breathed in/out with each breath

Question 27

What is tidal volume typical resting value?

Answer 27

500ml

Question 28

Minute ventilation typical resting value

Answer 28

6.0 L/min

Question 29

Residual volume typical resting value

Answer 29

1200ml

Question 30

Expiratory reserve volume typical resting value

Answer 30

1200ml

Question 31

Inspiratory reserve volume typical resting value

Answer 31

3100ml

Question 32

What happens to tidal volume during exercise?

Answer 32

Tidal volume increases during exercise

Question 33

What happens to minute ventilation during exercise?

Answer 33

Minute ventilation increases during exercise

Question 34

What happens to residual volume during exercise?

Answer 34

Residual volume remains almost the same but may decrease slightly during exercise

Question 35

What happens to expiratory reserve volume during exercise?

Answer 35

Expiratory reserve volume decreases during exercise.

Question 36

What happens to Inspiratory reserve volume during exercise?

Answer 36

Inspiratory reserve volume decreases during exercise.