11- Clinical Response to Hypoxemia and Hypercapnia Flashcards

1
Q

Generally speakign what 3 things work togetehr to coordinator breathing in the body? How does this relate to the analogy of the thermostat?

A

Sensors (chemoreceptors, lungs and other receptors) **thermostat**

Central Controller (pons, medulla, and other parts of brain) **furnace**

Effectors (respiratory muscles) **piping and ducts**

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2
Q

What cells are the carotid body made up of?

A

Type I

Type II: Glomus cells

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3
Q

What are the 3 kinds of sensors?

A

Central (pons, medulla)

Peripheral (Carotid body and aortic body)

Mechanoreceptors (lungs, GI tract, nose) Hypothalamus (anxiety, fear. pain) Voluntary control (“I want to hyperventiliate”)

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4
Q

What is sensed by the central and peripheral chemoreceptors? how much of the response are the central chemoreceptors vs peripher chemoreceptors responsible for?

A

Co2, H, O2

central: 70% of response
peripheral: 30%

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5
Q

WHat is ventilation?

A

to scatter, to dispers, a breeze/wind. to move air

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6
Q

What is the relationship between CO2 and H?

A

Everytime you have Co2 you have H!

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7
Q

What is the equation for pH? Are H ions good or bad? where do we find H?

A

pH= -logH

Hydrogen ions are bad!!
located in extracellular space

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8
Q

WHat is the nromal response for a person whos pCO2 increases to 60 mmHg? WHat is the relationship between CO2 and ventilation?

A

it should be 40mmHg

an increase in both respiratory rate and tidal volume

**As Co2 rises your ventilation rises**

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9
Q

What 2 forms determine the partial pressure of oxygen?

A

Hemoglobin bound, dissolved O2

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10
Q

What is the shape of the PaO2 and Hemoglobin saturation relationship? What is p50? What does it mean to right or left shift the curve?

A

sigmoidal due to the positive cooperativity of Hemoglobin

p50 is the PO2 required for hemoglobin to be 50% bound

right shift means hemoglobin is bound less tightly

left shift means hemoglobin is bound more tightly

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11
Q

What is Henrys Law?

A

The amount of dissolved gas is proportional to its partial pressure

Dissolved O2=PaO2 * 0.003

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12
Q

Ashley Matter is Anemic. She is asymptomatic ans oxygen saturation is 100% on room air. What is her expected ventilatory response?

A

no change in ventilatory response

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13
Q

Which ion is the ventilatory response most sensitive to? How does ventilation change if Co2 is constant and O2 decreases?

A

increases in CO2!

As O2 decreases ventilation will increase!

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14
Q

What is the equation for oxygen delivery? How does an anemic person (Ashley Hollo?) maintain oxygen delivery?

A

Delivery (DO2)= CO * CaO2

CaO2 is made up of Hb bound and dissolved

In anemia Hb is decreased

This means that viscosity is decreased, and therefore resistance is decreased. Decreased resitance leads to increased Cardiac output. SO! The body is able to compensate for decreased CaO2 by increasing cardiac output!

aka anemic person with a healthy heart can compensate and remain asymptomatic

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15
Q

What is the relationship between viscosity and resistance?

A

They are directy related! As viscosity increases so does resistance

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16
Q

What muscles are involved in tidal inspiration and what nerves stimulate them? What happens to the abdomen and chest during normal tidal breathing?

A

Diaphragm!!!!!!! C3, C5

external intercostals

chest and abdomen rise tgether during inspiration!

17
Q

What muscles are involed in inspiration during respiratory distress? What nerves innervate them? What happens to the chest and abdomen during respiratory distress inhalation?

A

diaphragm C3-C5

scalenes: C2-C7
sternocleidomastoid: accessory nerve C2-C3

Intercostals: T1-T11

Abdominal muscles esp transversus abdominus: T7-L1

The chest rises but the abdomen falls! This is called Hoovers sign

18
Q

What sensors are primarily resposible for O2? What sensors are primarily responsible for Co2?

A

Carotid body: O2

Central chemoreceptors: Co2

19
Q

What does the body do in response to decreased O2/ increased Co2?

A

the central controller sends signals to the spinal cord then to the muscles to increase ventilation which will increase O2 and reduce PaCO2

20
Q

what can you do to gurantee that you will win a breath holding competition?

A

take multiple breaths just before going under water

21
Q

How do people with chronic respiratory acidosis often respond to oxygen?

A

With acute acidosis!

With chronic acidosis the body resets so that oxygen is the main driver of ventilation (instead of CO2 like in healthy people)

so when oxygen increases there is no drive to breath. These people then hypoventilate and that is how they develop acute respiratory acidosis

22
Q

What happens to the airway and FRC during COPD?

A
  • Airway
    • loss of elastin
    • airway secretions
  • Lungs/FRC
    • loss of elastin
  • consequence: air trapping so increase in PaCO2

(no elastic you cant exhale well)

23
Q

What are 3 reasons that it is bad to give someone with COPD oxygen?

A
  1. Taken away drive to breath
  2. altered ventilation perfusion mismatch (VQ mismatch)
  3. Haldane effect
24
Q

How does blood flow in the lungs respond to chronic respiratory acidosis? What happens if you give them oxygen?

A

hypoxic vasocontriction (blood flow is diverted away from poorly ventilated areas)

too much oxygen vasodilates! Now, blood flow is re-establish to that part of the lung which is still poorly ventilating. PaCo2 INCREASES!

25
Q

WHat is the haldane effect

A

When you give a person with chronic acidosis oxygen there is more drive for O2 to bind to hemoglobin so there are less binding sites available for CO2 to bind to. Therefore they have more free Co2 floating around and are acidotic.

This is a ventilation perfusion mismatch

26
Q

What would happen if you knock out both phrenic nerves?

A

shallow, fast breathing only using the accessory muscle and not the abdomen. this is a probelm with the effector!

*

27
Q

What does Maximum expiratory pressure <60cm h20 predict?

what does maximum inspiratory pressure <30% predict?

What does vital capacity <55% predict?

A

MEP<60 predicts weak cough

MIP<30% predicts respiraoty failure

VC<55% predicts respiratory failure

28
Q

What are the 4 possile effector problems?

A
  1. Polyneuropathies, HMSN (CMT)
  2. Spinal Muscular atrophy, poliomyelitis
  3. Myastenia gravis
  4. Muscle dystrophy, myositis myotnoia
29
Q

What is the function of the pontine group?

A

located in pons

limits inspiration

acts as a “shut off”

30
Q

WHat is the job of the cetral pattern generator for the dorsal respiratory group? How about for the ventral respiratory group?

A
  • Dorsal respiratory group (inspiration)
    • located in medulla
    • pattern generator
    • quiet breathing
    • processing center
  • Ventral respiratory group (expiration and inspiration)
    • located in medulla
    • not so quiet breathing
    • inspiration and expiration
31
Q

A stroke to the pontine respiratory center will lead to____

A stroke in the central pattern generator (medulla) will lead to_____

opioid use will lead to ____

A

potine-apneustic breathing (inhibits excessive inhalation)

medulla-ataxic breathing (controls rhythm and rate)

opioids: slowed breathing

32
Q

What happens to oxygen levels and minute ventilation during ascent of Mt Everest?

A

partial pressure of oxygen decreases and minute ventilation increases

33
Q

WHat happens to the fraction of inspired air as you climb Mt Everest?

A

No change! The air you are breathing is still 22% oxyge, there just is less air in general

(think like preserved ejection fraction heart failure preserved the ejection fraction but had less volume in general to pump)

34
Q

What is the alveolar gas equation?

What is PAO2 at seas level? How does it relate to PaO2

Which value changes in the equation as you ascend Mt Everest?

A

PAO2=((Patm-Ph20) * FiO2) - PaCo2/RQ

As you ascend Mt Everst the Patm will decrease, but all other values stay constant. As you climb up the Alveolar gas significantly decreases

sea level: PAO2= 101mmHg. Also PAO2=PaO2

35
Q

Summary!

What are the sensors?

A

Chemoreceptors: PaO2, PaCO2

Mechanoreceptors: nose and lungs

Voluntary: cerebral cortex

36
Q

What are the central controllers?

A

Pontine group: Pons

Central Pattern Generator: Medulla

37
Q

Summary:

What are the effectors?

A

Spinal cord: signal from central controller

Diaphragm: quiet breathing

Accessory muscles: used with increase in ventilation