Respiratory responses

Question 1

What are the physical barriers to irritation/invasion of the respiratory tract?

Answer 1

• Nares, nasal cavity, pharynx, larynx
• Terminal bronchioles
• Mucociliary escalator
• Pseudostratified columnar epithelium with goblet cells
• Alveolar macrophages

Question 2

Rapidly adapting receptors respond to changes in?

Answer 2

Mechanical properties e.g. stretch, mainly in intrapulmonary airways

Question 3

When do rapidly adapting receptors become more active?

Answer 3

As rate and volume of lunch inflation increases during normal respiration

Question 4

What effect do rapidly adapting receptors have on airways?

Answer 4

Reflex bronchoconstriction and mucus secretion

Question 5

What do C-fibres respond to?

Answer 5

Noxious chemical and mechanical stimuli

Question 6

What are C-fibres directly activated by?

Answer 6

Bradykinin and capsaicin

Question 7

Where are slowly adapting receptors found?

Answer 7

Around bronchioles and alveoli

Question 8

How does inspiration and expiration affect the activity of slowly adapting receptors?

Answer 8

Increases during inspiration and decreases during expiration

Question 9

What is the afferent nerve of the cough reflex?

Answer 9

Vagus nerve

Question 10

Is the coughing reflex unconscious or conscious?

Answer 10

It is automatic but there is a degree of conscious control as it can be suppressed

Question 11

Where is the cough centre?

Answer 11

Medulla and pons

Question 12

Where are some mechanical receptors for the cough reflex found?

Answer 12

Pharynx, ear canal, eardrum, paranasal sinuses, diaphragm, pleura, pericardium and stomach

Question 13

Efferent impulses to generate a cough are sent via which routes?

Answer 13

Phrenic nerve - to the diaphragm
Spinal motor nerves - to abdominal wall muscles
Respiratory centre - stimulates muscles of inspiration and expiration
Vagus and laryngeal nerve - to the larynx

Question 14

What are the 3 mechanical phases to a cough?

Answer 14

1. Inspiratory
2. Compression: Glottis and larynx close which builds pressure in the thorax
3. Expiratory

Question 15

Where are receptors for the sneeze reflex found?

Answer 15

Nasal mucosa

Question 16

What is the afferent nerve of the sneeze relfex?

Answer 16

Trigeminal

Question 17

Where is the sneezing centre found?

Answer 17

Medulla oblongata

Question 18

What are some peculiarities that can cause a sneeze reflex?

Answer 18

• Bright light
• Full stomach
• Stimulation of the trigeminal nerve
• Sexual arousal

Question 19

What are the afferent and efferent nerves of the nasopulmonary reflex?

Answer 19

Afferent = Trigeminal 
Efferent = Vagus

Question 20

How can minute ventilation increase?

Answer 20

Increased RR
Increased tidal volume
Need both

Question 21

Increased ventilation needs to be matched by an increase in?

Answer 21

Perfusion

Question 22

What needs to be utilised to increase minute ventilation above the normal levels?

Answer 22

Active inspiration and expiration

Question 23

Activation of which NS is needed for bronchodilation?

Answer 23

Sympathetic

Question 24

Hyperventilation persisting leads to?

Answer 24

Hypocapnia

Question 25

How does pneumonia cause hypocapnia?

Answer 25

CO2 dissolves more easily in fluid so it can continue to be exchanged when oxygen can’t
An animal with pneumonia will have an increased RR to drive for more oxygen so in doing so it will lose more CO2

Question 26

How does hyperventilation/hypocapnia affect ventilation drive? describe the mechanism

Answer 26

Reduces the drive for increased ventilation

• Chemoreceptors detect low PaCO2
• Effect on PaO2
• pH increases

Question 27

What are the overall consequences of persistent hyperventilation?

Answer 27

• Hypocapnia
• Reduced drive for increased ventilation
• Increased workload on respiratory muscles
• Increased production of CO2 by these muscles

Question 28

Excessive loss of CO2 can lead to … alkalosis?

Answer 28

Respiratory - removal of too much CO2 and hydrogen ions from the body

Question 29

Describe type 1 respiratory failure

Answer 29

• Hypoxia with normo- or hypocapnia
• Usually disease of the gas exchange portion
• May be alkalotic
• Responds to supplemental oxygen

Question 30

Describe type II respiratory failure

Answer 30

• Hypoxia and hypercapnia
• Usually a disease of the conducting portion
• Oxygen supplementation can worsen the hypercapnia
• Reduces respiratory drive