3. Physiology
        3.16. SAQs
            3.16.12. Respiratory
                3.16.12.1. Control of respiration
3.16.12.1.2. Respiratory rate

Respiratory rate

List physiological factors which increase respiratory rate. Include a brief explanation of the mechanism by which each achieves this increase (02B10) (1995)

Controller of respiration

  1. Respiratory centre
  2. Cortex
    - can override respiratory centre to limited extent
  3. Others
    - limbic system and hypothalamus can alter patterns of respiration

Respiratory centre:

Sensors for respiratory centre

  1. Central chemoreceptors
  2. Peripherial chemoreceptors
  3. Lung receptors
  4. Other receptors

1. Central chemoreceptors

2. Peripheral chemoreceptors

Stimulated by:

3. Lung receptors

4. Other receptors

Work of breathing and respiratory rate

Work against elastic recoil

(For a given minute volume)

Work against air flow resistance

(For a given minute volume)

Optimal respiratory rate

Human tend to breath at a respiratory rate close to the one that minimises work of breathing.

[See diagram 20050306(1) - "Work of breathing vs respiratory rate"]

Factors which INCREASE respiratory rate

  1. low pH (acidosis)
    - via: peripheral
  2. high PaCO2 (hypercapnoea)
    - via: (mainly) central, peripheral
  3. low PaO2 (hypoxemia)
    - via: peripheral
  4. raised temperature (hyperthermia)
    - via: peripheral, skin
  5. pain
  6. severe hypotension
    - via: peripheral, arterial baroreceptor
  7. some chemicals and irritants
  8. exercise
    - via: joint/muscle receptor
  9. voluntarycontrol (to limited extent)
  10. Increased elastic recoil AND/OR
    lower airway resistance

Additional Notes

Respiratory centre include:

  1. Medullary respiratory centre (excitatory, both inspiratory and expiratory)
  2. Apneustic centre (excitatory, inspiratory only) 
  3. Pneumotaxic centre (inhibitory on inspiration)

Output via phrenic nerve

1. Medullary respiratory centre

Located in reticular formation of medulla, beneath floor of 4th ventricle

Has 2 parts:

  1. Dorsal respiratory group (excitatory, inspiratory)
  2. Ventral respiratory group (excitatory, expiratory)
Dorsal respiratory group
Ventral respiratory group

2. Apneustic centre

Located in lower pons

Causes excitatory effect on dorsal respiratory group
=> longer inspiration
=> thus slower rate

3. Pneumotaxic centree

Located in upper pons

Inhibits dorsal respiratory group
=> shorten inspiration
=> thus faster (not slower) rate

Central chemoreceptors

Changes in PaCO2 leads to changes in PCO2 in CSF.

Since there are less protein and haemoglobin in CSF (i.e. less buffer),

=> changes in PCO2 in CSF leads to great changes in pH.

When PaCO2 increase, cerebral vessels dilate,

=> faster diffusion of CO2

=> faster changes in pH in CSF

(Normal pH in CSF = 7.32)

When changes are prolonged,

=> HCO3 - moves across the blood-brain barrier to buffer the pH change in CSF (unknown if transport is active or passive)

=> CSF pH change is buffered BEFORE renal compensation of blood pH changes

=> Respiratory change is reduced

Peripheral chemoreceptors

Located as:

  1. Carotid bodies (important) - common carotid bifurcation
  2. Aoric bodies - above and below aortic arch

Rapid response.

Stimulation of the carotid bodies has predominantly respiratory effect.

Stimulation of the aortic bodies have a greater cardiovascular effect.

Carotid bodies

Contains glomus cells (type I and type II)

Peripheral chemoreceptors

Responds to:

Peripheral chemoreceptor stimulation also causes (in addition to increased ventilation):

Others

Additional notes

Examiner's comment

To be added later

Can add more notes on responses to O2, CO2, pH, exercise, diving

About
Created20050220
Updated20050220
Reviewed20050303
Printed1.0


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