Final Lecture: Mountain Dew, Capnography, Ventilation (Final Exam) Flashcards

1
Q

Would releasing of a tourniquet increase or decrease EtCO₂ ?
Why?

A
  • ↑ EtCO₂
  • Tourniquet’s trap metabolic byproducts (H⁺, CO₂, etc.) that continue to be produced. When released, these byproducts flood systemic circulation.
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2
Q

Would fever increase or decrease EtCO₂ ?
Why?

A
  • ↑ EtCO₂
  • Fever = increased metabolic rate
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3
Q

Would decreased cardiac output increase or decrease EtCO₂ ?
Why?

A
  • ↓ EtCO₂ (ex. intraoperative MI)
  • Less CO₂ exchange can occur in the lungs due to less blood movement
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4
Q

Would a pulmonary embolism increase or decrease EtCO₂?

A

↓ EtCO₂

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5
Q

Would increased blood pressure increase or decrease EtCO₂?

A

↑ EtCO₂

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6
Q

Would hypo or hyper-ventilation result in a decreased EtCO₂?

A
  • Hyperventilation = ↓ EtCO₂
  • more CO₂ being “blown” off
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7
Q

Would esophageal intubation result in a decreased or increased EtCO₂?

A

↓ EtCO₂

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8
Q

Would abdominal insufflation result in an increased or decreased EtCO₂?

A

↑ EtCO₂

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9
Q

What is often the first sign of malignant hyperthermia?

A

↑ EtCO₂

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10
Q

Would an airway obstruction or a circuit disconnection result in a decreased EtCO₂?

A

Trick question. Both will result in a ↓ EtCO₂

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11
Q

Would a HCO₃⁻ infusion result in an increase or decrease to EtCO₂?
Why?

A
  • ↑CO₂
  • H⁺ + HCO₃⁻ ⇔ CO₂ + H₂O (equation pushed to the right, ↑CO₂ produced)
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12
Q

What change would occur with EtCO₂ due to dead space development?
Why?

A
  • ↓ EtCO₂
  • Air trapping ala COPD = increased CO₂ trapping and less CO₂ available to escape
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13
Q

What would occur with our capnographic waveform with hypoventilation?

A

EtCO₂ waveform would become elevated

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14
Q

What would occur with our capnographic waveform with hyperventilation?

A

EtCO₂ waveform would become stunted

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15
Q

What would you surmise to be the cause of the EtCO₂ waveform below?

A

Falling CO (v bad)

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16
Q

What would you surmise to be the cause of the EtCO₂ waveform below?

A

Increasing CO (ex. successful CPR)

17
Q

What appearance would an EtCO₂ waveform take with bronchospasm?
Why?

A

“Shark-fin” upsloping appearance due to difficulty emptying small airways of the lungs

18
Q

What could be cause of the EtCO₂ waveform below?

A

Esophageal intubation, self-extubation, disconnection…. death.

19
Q

Based on the figure below, when would you expect expiration to start?
How about for expiration to end?

A
  • Expiration start: Somewhere in between A and B
  • Expiration end: E
20
Q

What is normal FRC for a standing patient?

A

3L

21
Q

What might FRC be for someone in the supine position, awake and spontaneously breathing?

A

FRC = 2 - 2.5 L

22
Q

How might FRC change for a sedated patient in an assisted mode of ventilation?

A

FRC = 1.75L

23
Q

How might FRC change for a supine patient who is paralyzed and completely ventilated?

A

FRC = 1L (maybe even as low as 0.75L)

24
Q

What occurs with air when at RV in a supine, paralyzed patient?

A

Air goes anteriorly, away from the more perfused areas of the lung.

25
Q

How can we treat poor V/Q ratios for the supine, paralyzed patient?

A
  • ↑PEEP to ↑FRC
  • ↑ FiO₂