Ventilatory Control

Question 1

Breathing Pattern - Inspiration

Answer 1

Progressive increases in diaphragm activation
Lungs fill a constant rate until end of tidal volume
Activation of inspiratory muscles ceases

Question 2

Breathing Pattern - Expiration

Answer 2

Relaxation of Inspiratory muscles (dia relaxes)
Elastic recoil allows for passive expiration
Activation of inspiratory muscles controls rate of expiration

Question 3

Feedforward Control

Answer 3

Ventilation adjustment based on exercise (muscle contraction) or motor activity
Apparent particularly at onset of exercise
Doesnt require much, it just does it…but with exercise the feedforward sys stimulates ventilatory response proportional to amount of muscle you have contracting

Question 4

Feedback Control

Answer 4

Allows for matching of response to some control value

Requires a sensor, and a comparator (sensor, controller, and effector)

Question 5

Pre-Botzinger Complex

Answer 5

Rhythmic inspiration initiated by pacemakeer cells in the PBC
Located in the medulla
Stimulates ventilation and inhalation to occur
Between lateral reticular nucleus and nucleus ambiguous

Question 6

Respiratory Centers

Answer 6

1. Medullary respiratory center - the rhythm generator

2. Pntine (pneumotaxic) respiratory group: fine tuning

Question 7

Medullary Respiratory Center

Answer 7

PBC - initiates inspiration
Dorsal Respiratory Group - Stimulates to diaphragm - activates phrenic and allows for continuous inspiration
Ventral Respiratory Group - Stimualtes the intercostal and abdominal muscles - When respiratory drive inc (exercise) VRG is recruited, contributes to inhalation and exhalation, sends powerful signal for forceful exhalation

Question 8

Pontine Respiratory Group

Answer 8

Transmits signal to the inspiratory area to limit inspiration
Controls the switch off point of the inspiratory ramp
Causes the shut off of inspiration - so shuts down DRG

Question 9

Normal Breathing Pattern Firing

Answer 9

PBC - initiate inhale
DRG - inhale
PRG - shut down DRG and leads to passive exhale

Question 10

What are the things that we are sensing and what is the effector response

Answer 10

Chemoreceptors
Mechanoreceptors
Input from working muscle (spindles)
Response - phrenic and other muscles for respiration

Question 11

Reflex - Pulmonary Stretch Receptors

Answer 11

Mechanoreceptors
Located in smooth muscle airways
Slowly adapting receptors - they will fire anytime there is a stretch and say when need to shut down inspiration so can stop to exhale and can have another inhale (inhibits the DRG)
Increases resp rate
Prolongs expiration

Question 12

Reflex - Chest Wall Proprioceptors

Answer 12

Muscle spindle and GTOs

Question 13

Reflex - Irritant Receptors

Answer 13

Located btw airway epithelial cells in larger airways
Rapidly adapting receptor - firing is proportional to lung volume amount and rate of change
Responds to chemical and mechanical stimuli
Cough reflex. sneezing, bronchoconstriction, rapid breathing

Question 14

Reflex - Juxtacapillary Receptors (C fiber endings)

Answer 14

Unmyelinated and serve protective function
Give feeling of dyspnea
Two groups
1. Pulmonary C fibers - located next to alveoli and are sensitive to mechanical events (edema)
2. Bronchial C fibers - located in airways, responsive to inflammatory events

Question 15

Reflex - Central Chemoreceptors

Answer 15

Located in medulla and are sensitive to H+ in the ISF
H+ can’t cross, so CO2 crosses, binds with water, and then is converted into H+ and HCO3-
HCO3- is buffer in CSF

Question 16

Reflex - Peripheral Chemoreceptors

Answer 16

Located in carotid and aortic bodies

Unlike central, they are sensitive to PaO2

Question 17

More sensitive driver for ventilation

Answer 17

CO2
If hold breath, inc response from CO2
People hyperventialte before holding breath so that CO2 gets low so that then you dont get a sens of needing to breathe for longer period of time

Question 18

As you inc arterial PCO2

Answer 18

(normally at 40)

As inc, sensed by central chemoreceptors

Question 19

PO2, as you drop ventilation…

Answer 19

100, as drop ventilation, not much of anything is happening until at hypoxic level of like 60 or so and this is sensed by the peripheral chemoreceptors

Question 20

Kidneys vs. Lungs

Answer 20

Kidneys = Bicarbonate Control
Lungs = pCO2 control
Acid/base balance - kidneys and lungs play role in keeping this balance

Question 21

Acid Base Chemistry - Acid

Answer 21

Proton Donor

H+ - molecule that can liberate H+ ions

Question 22

Acid Base Chemistry - Base

Answer 22

Proton Acceptor
Molecule that is capable of combining with H+
Bicarbonate –> Carbonic Acid

Question 23

Buffer

Answer 23

Minimizes pH changes but doesn’t add or remove acid from the body
Bicarbonate is Ex

Question 24

pH

Answer 24

Measure of H+ ion concentration

The more acid = the lower the pH

Question 25

Normal pH

Answer 25

7.4

Question 26

Abnormal pH

Answer 26

Inhibit ATP production

Interfere with muscle contraction

Question 27

Acid Base balance is maintained by

Answer 27

buffers

• Release H+ ions when pH is high
• Accept H+ ions when pH is low

Question 28

Tolerable limits for pH
Muscle
Urine

Answer 28

6.9 - 7.5
Muscle with normal breathing = 7-7.1
Urine = 4.5-8

Question 29

Acidosis

Answer 29

A lot of H+

1. Resp. Acidosis (Inc pCO2)
2. Metabolic Acidosis (dec HCO3-)

Question 30

Alkalosis

Answer 30

1. Resp Alkalosis (dec PCO2)

2. Metablic Alkalosis (inc. HCO3-)

Question 31

Respiratory

Answer 31

Issue with CO2
Acidosis = high pCO2 (comp with raise bicarb)
Alkalosis = low pCO2 (comp with low bicarb)

Question 32

Metabolic

Answer 32

Issue with Bicarbonate
Acidosis = low bicarb (comp with low pCO2)
Alkalosis = high bicarb (comp with raise pCO2)

Question 33

1st line of defense against acid-base status

Answer 33

Intra and Extracellular buffers
Immediate
Ex = Buffers

Question 34

2nd line of defense against acid base status

Answer 34

respiratory compensations
1 to 15 minutes
Ex: blowing out more CO2

Question 35

3rd line of defense against acid base status

Answer 35

kidney compensations
Most powerful
hours to days
kidney can alter how much acid or base we have

Question 36

Buffers

Answer 36

Combine with acid or base to buffer
Intracellular = bicarbonate and proteins
Extracellular = bicarbonate and phosphates

Question 37

Bicarbonate Buffering System

Answer 37

Can go either way
Eqn to the right = to the tissues, more acid produced and buffer with bicarb
Eqn to the left = go to lungs, excrete CO2 by blowing out

Question 38

Respiratory Compensations

Answer 38

2nd line of defense
Inc Ventilation, exhale more CO2
Stimulated by inc H+ (acidic) –> so this reduces H+ and blood pCO2
CO2 exhalation has to match CO2 production though
Need carbonic anahydrase

Question 39

Renal Compensation

Answer 39

3rd line of defense
Urinary excretion of H+ (acid) and sometime bicarb
Kidneys dont excrete free H+ - 2/3 of it is excreted with ammonia
Most bicarb filtered in kidneys is reabsorbed back into the bloodstream

Question 40

What is decreased at altitude

Answer 40

Decreased O2 diffusion

Decreased pO2 in the air as go to altitude

Question 41

Hyperventialtion shifts the curve…

Answer 41

Left - pH going up
Hypoxemia –> paO2 is low –> peripheral chemo –> hyperventilate –> Inc PaO2 and dec PaCO2 –> resp alkalosis –> Inc pH