3. Control of Ventilation

Question 1

How are skeletal muscles stimulated during inspiration ?

Answer 1

Phrenic nerve to diaphragmIntercostal nerves to external intercostal muscles Entirely dependant on signalling from the brain

Question 2

What part of the brain is responsible for ventilatory control ?

Answer 2

Ill defined centres located in the pons and medulla (respiratory centres)

Question 3

What is the activity of respiratory centres ?

Answer 3

Fire repetitive short bursts of action potentials in DRG which travel to the inspiratory musclesThis sets an autonomic rhythm of breathingThey adjust their rhythm according to the stimuli

Question 4

What modulates rhythm of respiratory centres ?

Answer 4

Emotion (via limbic system in brain)Voluntary over-ride (via higher centres in brain)Mechano-sensory input from thorax ( e.g. stretch reflex)Chemical composition of blood (PCO2, PO2, pH)- detected by chemoreceptors

Question 5

What does DRG stand for ?

Answer 5

Dorsal respiratory group of neurons

Question 6

What does VRG stand for ?

Answer 6

Ventral respiratory group of neurons

Question 7

What does PRG stand for ?

Answer 7

Pontine respiratory group - pneumotaxic area

Question 8

What does NTS stand for ?

Answer 8

Nucleus tractis soolitaris

Question 9

Which respiratory centre is located in the pons ?

Answer 9

PRG

Question 10

What does VRG do ?

Answer 10

Maintains basal tone

Question 11

What does VRG supply ?

Answer 11

TonguePharynxLarynxExpiratory muscles

Question 12

What does DRG supply ?

Answer 12

Inspiratory muscles, via phrenic and intercostal nerves

Question 13

What is the most significant input ?

Answer 13

Chemoreceptor input

Question 14

Where are the central chemoreceptors located ?

Answer 14

Medulla

Question 15

What chemical change does the medulla detect from the CSF ?

Answer 15

Respond directly to H+, directly reflects PCO2Primary ventilatory drive

Question 16

Where are the peripheral chemoreceptors located ?

Answer 16

Carotid and aortic bodies

Question 17

What chemical change do the peripheral chemoreceptors detect ?

Answer 17

Primarily to plasma [H+] and PO2 (not oxygen content) (less so to PCO2)Second ventilatory drive

Question 18

What do central chemoreceptors in medulla cause ?

Answer 18

Reflex stimulation of ventilation following rose in [H+] ( driven by hypercapnea)

Question 19

What is hypercapnea ?

Answer 19

Raised PCO2

Question 20

What change in blood PCO2 does hyperventilation cause ?

Answer 20

Reduces PCO2 - reduces CSF H+Inhibits ventilation

Question 21

does the medulla respond to direct changes in the plasma [H+] ?

Answer 21

No

Question 22

When PaCO2 increases, what crosses the blood-brain barrier ?

Answer 22

CO2 not H+

Question 23

What responds to H+ ?

Answer 23

Receptors on bicarbonate and H+ when they are formed

Question 24

What does feedback via the respiratory centres increases ?

Answer 24

Increases ventilation in response to increased PaCO2

Question 25

What does decreased PaCO2 do ?

Answer 25

Slows ventilation rate

Question 26

A 10% increases in PCO2 causes what ?

Answer 26

100% increase in ventilation

Question 27

What are we very sensitive to changes in ?

Answer 27

PCO2, so small changes in CO2 will stimulate ventilation in order to get rid of CO2 and remove the toxic gas from our blood

Question 28

In chronic lung disease what can become chronically elevated ?

Answer 28

PaCO2

Question 29

What do individuals with chronic lung disease become desensitised to ?

Answer 29

PCO2

Question 30

What do people with chronic lung disease rely on to stimulate ventilation ?

Answer 30

Changes in PO2Peripheral chemoreceptors

Question 31

What kind of respiratory drive are people with chronic lung disease said to be on ?

Answer 31

Hypoxic drive

Question 32

What do the peripheral chemoreceptors cause ?

Answer 32

Reflex stimulation of ventilation following significant fall in arterial PO2 or increasing levels of plasma [H+]

Question 33

When do the peripheral chemoreceptors kick in ?

Answer 33

When PO2 drops below 60mmHg

Question 34

Which direction does increased ventilation shift the equilibrium ? CO2 + H20 H2CO3 HCO3- + H+

Answer 34

Increased ventilation drives this equation to the left (by blowing off CO2) and lowers [H+]

Question 35

Which direction does decreased ventilation shift the equilibrium ? CO2 + H20 H2CO3 HCO3- + H+

Answer 35

Decreased ventilation drives this equation to the right (by retaining CO2) and increases [H+]

Question 36

What will happen to respiration rate in an anaemic patient with normal lung function, who has a blood oxygen content half the normal value ?

Answer 36

It will stay the same, because peripheral chemoreceptors are responding to PO2 and not total O2 content If the lungs are working normally, diffusion will take place normally and therefore the amount of oxygen in solution in the plasma (PaO2) will be normal

Question 37

Which type of chemoreceptors afferent sensory neurones ?

Answer 37

Carotid and aortic chemoreceptors

Question 38

What do the somatic motor neurones for inspiration and expiration innervate ?

Answer 38

Inspiration - Scalene and sternocleidomastoid muscles, external intercostals, diaphragmExpiration - Internal intercostalsAbdominal muscles

Question 39

What do most gaseous anaesthetic agents do ?

Answer 39

Increase RR but decrease TV, so decrease AV

Question 40

What type of drugs depress respiratory centres ?

Answer 40

Barbiturates and opioids

Question 41

What is nitrous oxide ?

Answer 41

A common sedative/ light anaesthetic agent that blunts peripheral chemorecptors to failing PaCO2

Question 42

When is nitrous oxide problematic ?

Answer 42

Chronic lung disease cases where individuals often on hypoxic drive

Question 43

What happens when you administer O2 to patients with chronic lung disease ?

Answer 43

Aggravates situation

Question 44

When will changes in plasma pH alter ventilation via peripheral chemoreceptor pathways ?

Answer 44

If plasma pH falls ([H+] increases) ventilation will be stimulated (acidosis)If plasma pH increases ([H+] falls) e.g. Vomiting (alkalosis) ventilation will be inhibited

Question 45

Is CO2 capable of changing ECF pH ?

Answer 45

Yes

Question 46

What will alter plasma PCO2 and therefore plasma [H+] ?

Answer 46

HyperventilationHypoventilation

Question 47

What will hypoventilation do ?

Answer 47

Cause CO2 retention, leads to increased [H+] bringing about respiratory acidosis

Question 48

What will hyperventilation do ?

Answer 48

Blow off more CO2, leads to decreased [H+] bringing about respiratory alkalosis

Question 49

What allows us to have a large degree of voluntary control over breathing ?

Answer 49

Descending neural pathways from cerebral cortex to respiratory motor neurones

Question 50

Can cerebral cortex neural pathways override involuntary stimuli such as PCO2 or H+ ?

Answer 50

No

Question 51

What are examples of voluntary control of ventilation ?

Answer 51

Breath-holdingHyperventilation

Question 52

What is the neurotransmitter that responds to low PO2 in the peripheral chemoreceptors ?

Answer 52

Dopamine

Question 53

Why is respiration inhibited during swallowing ?

Answer 53

To avoid aspiration of food or fluids into the airways

Question 54

Why is swallowing followed by an expiration ?

Answer 54

In order that any particles are dislodged outwards from the region of the glottis