Phys 5

Question 1

Steps of respiratory controls

Answer 1

1. Medullary center
2. Effectors
3. Controlled variable
4. Sensor

Question 2

Apneusis

Answer 2

failure to turn inspiration off

-can occur when the PRG is lesioned (if there is not additional sensory information coming from the vagus nerves)

Question 3

What determines the timing of respiration?

Answer 3

1. PRG (pons): modifies inspiratory timing (activity–> turns off inspiration)
2. *Pre-Bot (medullary): generates core pattern

*the younger you are, the more important it is

Question 4

What determines depth of respiration?

Answer 4

1. DRG (medullary): 95% premotor to phrenic; receives sensory information to help it determine pattern based on situation–> deep breathing (tidal volume)
2. VRG (medullary): 2 parts
   a. Rostral: premotor to phrenic, other inspiratory m.s
   b. Caudal: premotor to upper airway, other expiratory m.s

Question 5

Apneusis vs. Apnea

1. Appearance
2. Results from
3. Effects

Answer 5

1. Maintained inspiratory discharge
   - absence of respiratory effort
2. Pontine damage
   - medullary or spinal damage
3. Slight delay, but then increase CO2, decrease O2, death if not supported
   - increase CO2, decrease O2, death if not supported

Question 6

What is a chemoreceptor?

Answer 6

A neuron that is sensitive to specific chemicals
-in the respiratory system, these signals are: O2, CO2, H+

• Increase CO2/H+: increased firing
• Decrease O2: increased firing

Question 7

Where do we find central chemoreceptors? peripheral?

Answer 7

a. brain (ventral surface of the medulla)

b. carotid and aorta

Question 8

Central chemoreceptors

Answer 8

• indirectly sensitive to CO2 in the blood; directly with H+ (pH of CSF)
• CO2 (indirect) crosses BBB to react with water, which forms H+ (direct)
• drive to breath
• increase respiration/depth in response to hypercapnia

Question 9

Peripheral chemoreceptors

Answer 9

• directly sensitive to O2, CO2, H+
• aortic arch uses different nerves than the carotid body, and serves as a back-up
• acute changes in blood gas
• -increase respiration/depth in response to hypercapnia , acidosis, and hypoxia

Question 10

Ve=

Answer 10

f x Vt

Question 11

Slowly Adapting Pulmonary Stretch Receptors

Answer 11

• located in airways; fibers travel to brain with Vagus N.
• sensitive to stretch of airways
• effect: inhibition of inspiration, and prolongation of expiration
• want to decrease lung volume; important in infants, and exercising adults

Question 12

Rapidly Adapting Pulmonary Stretch Receptors

Answer 12

• located in airways; fibers travel to brain with Vagus N.
• sensitive to irritation, foreign bodies in airway, stretch
• effect: cough to remove irritant

Question 13

Juxtacapillary Receptors

Answer 13

• located near BVs of alveoli; fibers travel to brain with Vagus N.
• sensitive to pulmonary edema
• Effect: cough, tachypnea

Question 14

What two receptors can override normal respiratory controls?

Answer 14

Juxtacapillary Receptors and Rapidly Adapting Pulmonary Stretch Receptors

Question 15

Cortical influence on breathing

Answer 15

• talking, holding breath…

- cortex can bypass the medullary centers completely, and send input directly to the muscles of respiration