Control of Ventilation

Question 1

Where does ventilation control reside?

Answer 1

Within ill-defined centres located in the pons and medulla (respiratory centres)

Question 2

What muscles are stimulated on inspiration?

Answer 2

Diaphragm and intercostal muscles

Question 3

What stimulates the diaphragm?

Answer 3

Phrenic nerve

Question 4

What stimulates the intercostal muscles?

Answer 4

Intercostal nerves

Question 5

What can you say about the conscious level required to breath?

Answer 5

In subconscious but can be voluntaraly modulated

Question 6

What levels of the spinal cord does the phrenic nerve originate?

Answer 6

C3 - C5

Question 7

Where must the spinal cord be severed for breathing to stop?

Answer 7

Above the origin of the phrenic nerve (C3 - C5)

Question 8

What are the functions of the respiratory centres?

Answer 8

Set an automatic rhythm of breathing through co-ordinating the firing of smooth and repetative bursts of action potentials in dorsal respiratory groups (DRG) which travel to inspiratory muscles

Adjust the rhythm in response to stimuli

Question 9

What do respiratory centres have their rhythm modulated by?

Answer 9

Emotion (via limbic system of the brain)

Volunrary over ride (via higher centres in the brain)

Mechani-sensory input from thorax (such as stretch reflex)

Chemical composition of the blood detect by chemoreceptors (P_CO2, P_O2 and ph)

Question 10

What input has the most inpact on modulation of the respiratory centres rhythm?

Answer 10

Chemoreceptors

Question 11

What does DRG stand for?

Answer 11

Dorsal respiratory group of neurons

Question 12

What is VRG stand for?

Answer 12

Ventral respiratory group of neurons

Question 13

What do the dorsal respiratory group of neurons innervate?

Answer 13

Inspiratory muscles via the phrenic and intercostal nerves

Question 14

What does the ventral respiratory group of neurons innervate?

Answer 14

Tongue

Pharnx

Larynx

Expiratory muscles

Question 15

What are the 2 kinds of chemoreceptors?

Answer 15

Central

Peripheral

Question 16

Where are central chemoreceptors?

Answer 16

Medulla

Question 17

What do central chemoreceptors respond to?

Answer 17

Directly to H⁺ (directly reflects P_CO2)

Question 18

Where are peripheral chemoreceptors?

Answer 18

Carotid and aortic bodies

Question 19

What do peripheral chemoreceptors respond to?

Answer 19

Plasma [H⁺] (less so to P_CO2)

Question 20

What is the primary ventilation drive?

Answer 20

Central chemoreceptors

Question 21

What is the secondary ventilation drive?

Answer 21

Peripheral chemoreceptors

Question 22

What do central chemoreceptors detect?

Answer 22

Changes in [H⁺] in the CSF around the brain

Question 23

How do central chemoreceptors respond to changes in [H⁺] in the CSF around the brain?

Answer 23

Reflex stimulation of ventilation is increase in [H⁺)

Question 24

When do central chemoreceptors cause ventilation as a reflex?

Answer 24

When they detect an increase in [H⁺]

Question 25

When do central chemoreceptors inhibit ventilation?

Answer 25

When [H⁺] drops

Question 26

What is hypercapnia?

Answer 26

Abnormally elevated levels of carbon dioxide in the blood

Question 27

What is abnormally elevated levels of carbon dioxide in the blood called?

Answer 27

Hypercapnia

Question 28

What is the process of central chemoreceptor altering ventilation?

Answer 28

1) Arterial P_CO2 increases and carbon dioxide crosses the blood brain barrier (not H⁺)
2) Bicarbonate and H⁺ are formed and receptors respond to H⁺
3) Feedback via the respiratory centres increases ventilation in response to increased arterial P_CO2
4) Decreased arterial P_CO2 slows ventilation rate
5) This means that the central chemoreceptors monitor the P_CO2 indirectly in the cerebrospinal fluid

Question 29

What cross the blood brain barrier before acting of central receptors?

Answer 29

Carbon dioxide, not H⁺, which is formed once carbon dioxide is broken down in the CSF

Question 30

What do peripheral chemoreceptors detect changes in?

Answer 30

P_O2 and [H⁺]

Question 31

What is the process of peripheral chemoreceptors altering ventilation?

Answer 31

1) Arterial P_O2 is low so no oxygen combines with oxygen sensor
2) K⁺ channel closes so the cell depolarises
3) Exocytosis of dopamine containing vesicles
4) Act on dopamine receptors on sensory neuron
5) Action potential generated that signals medullary centres to increase ventilation

Question 33

When do peripheral chemoreceptors cause a reflex stimulation of ventilation?

Answer 33

Fall in arterial P_O2 or rise in [H⁺]

Question 34

What causes an increase of [H⁺] in the blood?

Answer 34

Rise in arterial P_CO2

CO₂ + H₂O ↔ H₂CO₃ ↔ HCO₃ + H⁺

Question 35

What do peripheral chemoreceptors not respond to?

Answer 35

Oxygen content, they respond to P_O2

Question 36

When would peripheral chemoreceptor stimulate ventilation?

Answer 36

Plasma pH falls ([H⁺] increases)

During acidosis

Question 37

When would peripheral chemoreceptor inhibit ventilation?

Answer 37

When pH rises ([H⁺] decreases)

During alkalosis or vomiting

Question 38

What can voluntary descending neural pathways from the cerebral cortex not overide?

Answer 38

Involuntary stimuli such as arterial P_CO2 or [H⁺]

Question 39

Why is respiration inhibited during swollowing?

Answer 39

Avoid aspiration of foods or fluids into the airways, followed by an expiration in order than any particles are dislodged outwards from the region of the glottis

Question 40

What are common drugs that affect respiratory centres?

Answer 40

Barbiturates and opioids

Gaseous anaesthetic agents

Nitrous oxide

Question 41

How do barbiturates and opioids affect respiratory centres?

Answer 41

Depress respiratory centres, overose often results in death as a result of respiratory failure

Question 42

How do gaseous anaesthetic agents affect respiratory rate?

Answer 42

Increase respiratory rate, but decreases tidal volume

Question 43

Hows does nitrous oxide affect respiratory centres?

Answer 43

Blunts peripheral chemoreceptor response to falling P_aO₂

Question 44

How safe is using nitrous oxide on respiratory centres?

Answer 44

Very safe in most people

Problematic in chronic lung disease cases where individual often on hypoxic drive and administering O₂ to these patients aggravates situation

Question 45

What drugs depress respiratory centres?

Answer 45

Barbiturates and opioids