exam 2 lecture 22

Question 1

The goal of respiration: maintain sufficient ____ with minimal energy

Answer 1

ventilation

Question 2

central processor controls ___

Answer 2

•Pattern generator of breathing depth / amplitude

Rhythm generator for breathing rate (periodicity

Question 3

three types of sensors to control ventilation

Answer 3

chemoreceptors

baroreceptors

stretch receptors

Question 4

where is the central controller?

Answer 4

pon

most in the medulla

Question 5

what innervates accessory respiratory muscles?

Answer 5

ventral respiratory group

Question 6

what innervates the diaphragm and external intercostal muscles?

Answer 6

dorsal respiratory group

by the phrenic nerve

Question 7

respiratory control is a ___ feedback system

Answer 7

neagtive

Question 8

what is the hering breuer reflex and what disproves this theory?

Answer 8

taking a breathe triggers a stretch receptor in smooth muscle that triggers another breathe

lung transplant patients disproves this

Question 9

•Inspiratory impulses are ___ and are dynamic

Answer 9

dominate

neurons needed to inhale

Question 10

during sleep, central drive is ____ so peripheral chemoreceptors stimulate based on O₂ and CO₂ levels

Answer 10

reduced

Question 11

why are expiratory neurons not as important

Answer 11

exhale is passive

neurons only needed for forced exhale

Question 12

what happens when you cut below the DRG?

Answer 12

breathing stops

phrenic nerve comes off the DRG - no dorsal respiratory group= no breathing

Question 13

what happens if you cut off the pons?

Answer 13

breathing with very sharp amplitude

Question 14

what happens if you cut off the PRG but keep the apneustic center?

Answer 14

breathing more normal

still high amplitude and slightly slower but more steady

Question 15

if you cut above the PRG what happens to breathing?

Answer 15

normal breathing

locked in syndrome

Question 16

what is the most important principal initiator of breathing?

Answer 16

dorsal respiratory group

Question 17

what part of the DRG receives afferent fibers?

Answer 17

nucleus tractus solaris

•Nucleus tractus solaris is where afferent fibers of the glossopharyngeal and vagus nerves project, carrying information received about PO₂, PCO₂, and pH from the carotid and aortic arterial chemoreceptors

Question 18

•Nucleus tractus solaris is where ___ fibers of the glossopharyngeal and vagus nerves project, carrying information received about ___ from the carotid and aortic arterial chemoreceptors.

Answer 18

afferent

PO₂, PCO₂, and pH

Question 19

the DRG has outputs via the ___ to the diaphragm, therefor controlling the most important respiratory muscle

Answer 19

phrenic nerve

Question 20

what is the most important respiratory group and why?

Answer 20

the dorsal respiratory group (DRG) is responsible for

1) driving the diaphragm
2) receiving/ integrating input from peripheral chemoreceptors.

Therefor it is the MOST IMPORTANT RESPIRATORY GROUP

Question 21

what does the ventral respiratory group do?

Answer 21

• Connected primarily to vagus nerve
• “patency of airway”
• Expiratory neurons

Question 22

the VRG contains what two specialized groups

Answer 22

• Botzinger complex: inhibit inspiratory cells in the DRG
• Pre-Botzinger complex: hypothesized (but not proven) to be the precise location of the respiratory rhythm generator

Question 23

•Botzinger complex:

Answer 23

•Botzinger complex: inhibit inspiratory cells in the DRG

found in the ventral respiratory group

Question 24

•Pre-Botzinger complex

Answer 24

•Pre-Botzinger complex: hypothesized (but not proven) to be the precise location of the respiratory rhythm generator

found in the ventral respiratory group

Question 25

what are the two groups found in the pons that control breathing

Answer 25

apneustic center

pontine respiratory group

Question 26

apneustic center

Answer 26

• Apneustic center - nucleus of the pons
• Coordinates speed of inhalation and exhalation
• Sends stimulatory impulses to the inspiratory area – activates and prolongs inhalation (long, deep breaths)
• Site of the “inspiratory cutoff switch”

Question 27

Site of the “inspiratory cutoff switch”

Answer 27

apneustic center in the pons

Question 28

___ coordinates speed of inhalation and exhalation

Answer 28

apneustic center of the pons

this is why when you cut this area off, very sharp very long breaths

Question 29

___ sends stimulatory impulses to the inspiratory area – activates and prolongs inhalation (long, deep breaths)

Answer 29

apneustic center of the pons

Question 30

Pontine respiratory group

Answer 30

• Formerly known as the pneumotaxic center
• Coordinate speed of inhalation and exhalation
• Sends inhibitory impulses to the inspiratory area•Involved in fine tuning respiration rate

Question 31

___ Coordinate speed of inhalation and exhalation

Answer 31

pontine respiratory group in the pons

Question 32

___ sends inhibitory impulses to the inspiratory area of the DRG

Answer 32

pontine respiratory group of the pons

Question 33

___ involved in fine tuning respiration rate

Answer 33

pontine respiratory group of the pons

Question 34

•Cheyne-Stokes respiration

Answer 34

• Alternating episodes of apnea and crescendo-decrescendo hypernea
• Caused by damage to respiratory centers in the brainstem, hypoxia

Question 35

___ •Alternating episodes of apnea and crescendo-decrescendo hypernea

Answer 35

•Cheyne-Stokes respiration

Question 36

•Apneustic breathing

Answer 36

• Prolonged inspiration due to interruption of the pneumotaxic center (pontine respiratory group of the pons)
• i.e. “dying gasps”- most likely in the pons

Question 37

•Biot’s breathing

Answer 37

• Normal breathing interrupted by sudden apnea
• Damage to the pons

Question 38

• Normal breathing interrupted by sudden apnea
• Damage to the pons

Answer 38

biot’s breathing

Question 39

•Kussmaul’s breathing

Answer 39

• Hyperventilation with hypocapnia caused by acidosis (diabetic)
• Brain is normal, caused entirely by chemoreceptors

Question 40

• Hyperventilation with hypocapnia caused by acidosis (diabetic)
• Brain is normal, caused entirely by chemoreceptors

Answer 40

•Kussmaul’s breathing

Question 41

Answer 41

Question 42

Answer 42

Question 43

Answer 43

Question 44

•Respiratory center is in the brainstem (medulla ___)

Answer 44

oblongata

Question 45

what are two regions of the brain that affect respiration

Answer 45

•Cortex•Conscious control of breath•E.g., holding your breath

•Limbic system and hypothalamus•Emotional states•Panic attack

Question 46

how does the body measure changes in CO2

Answer 46

CO2 can diffuse across blood brain barrier combines with H20 and forms H and HCO3-

this will decrease the pH of the CSF (make more acidic)

this change in pH can be detected by H+ receptors

Question 47

•Protons (H⁺) pass poorly through the ___ but CO₂ passes easily

Answer 47

blood brain barrier

•Blood pH is therefor transmitted via CO₂ to CSF

Question 48

adapt to elevated CO₂ levels (reduced pH) by transfer of ___ into CSF (slow). this will stimulate ___

Answer 48

HCO₃^- or Cl^-

•Stimulation of this system causes the urge to breath (increase ventilation, get rid of that CO₂)

Question 49

•Recent studies suggest additional chemoreceptors throughout the brainstem:NTS, ___

Answer 49

locus coeruleus

Question 50

where is all O2 sensing done to control breathing

Answer 50

carotid and aortic bodies (peripheral chemosensors)

Question 51

•Afferent nerves (glossopharyngeal for carotid body, vagus for aortic body) run back to the ___ in the medulla to then change the breathing patterns

Answer 51

respiratory center (DRG)

Question 52

true or false

aortic bodies exert greater influence than carotid bodies

Answer 52

false

•Carotid bodies exert greater influence than do aortic bodies

Question 53

___ receptors are more important in short-term, transient responses than in normal ventilatory control

Answer 53

carotid body and aortic bodies

peripheral chemosensors

Question 54

how do O2 sensors work

Answer 54

•Glomus cells (type I cells)

• K channel with O₂ sensor
• O₂ opens channel and hyperpolarizes cell
• Drop in O₂ causes reduction in K current and depolarization
• Resulting Ca²⁺ influx triggers dopamine release
• Dopamine initiates action potential in sensory nerve to send the signal back up to the medula•

Glomus cells are derived from the neural crest•

Glomus cells may also be the primary CO₂ / pH chemosensor, but isn’t certain

Supported by type II cells (sustentacular cells)

Question 55

how does low O2 effect glomus cells

Answer 55

causes K channels to close, which causes depolarization and dopamine to be released causing an action potential

Question 56

what enzyme helps glomus cells to detect oxygen

Answer 56

CSE (cystathione gamma-lyase )

•hypoxia decreases CO production•Less CO means less inhibition of CSE•More active CSE means more H₂S•More H₂S depolarizes cells causing neurotransmitter release

Question 57

what do cigarette help at high altitude

Answer 57

• PO₂ must drop to 60 mm Hg (~10,000 ft elevation) before this triggers a change in the glomus cells
• At these high elevations, PCO₂ is also lower, so fails to increase respiratory drive (stimulates person to breathe)

Question 58

___ are much less important than arterial chemoreceptors for ventilation

Answer 58

arterial baroreceptors

Question 59

•Bronchiolar smooth muscle is enriched in __ adrenergic receptors

Answer 59

β₂

Question 60

•____ (sympathetic) lead to bronchodilation

Answer 60

Catecholamines

Question 61

•Parasympathetic stimulation of the muscarinic M₃ receptors (via ___) causes bronchoconstriction

Answer 61

acetylcholine

Question 62

catecholamines cause ___ and acetylcholine causes ___

Answer 62

•bronchodilation (sympathetic innervation)

bronchoconstriction (parasympathetic innervation)

Question 63

what is triggered in an asthma attack to cause bronchoconstriction?

Answer 63

muscarinic M₃ receptors (via acetylcholine- parasympathetic innervation)

Question 64

•J-receptors

Answer 64

• Sense interstitial fluid changes (pulmonary edema)
• Cause sense of breathlessness
• Located in capillary walls

breathlessness

Question 65

what is the dominant respiratory driver?

Answer 65

CO2