Inhaled Anesthetics Part 2 (Exam III)

Question 1

What are the purposes of the anesthesia circuit?

Answer 1

• Delivery of O₂ and inhaled anesthetics
• Maintenance of temperature & humidity
• Removal of CO₂ and exhaled drugs

Question 2

What types of gas delivery systems are there?

Answer 2

• Rebreathing (Bain system)
• Non-rebreathing (BVM system)
• Circle systems (Anesthesia machine)

Question 3

What type of system is depicted below?
Where is the aPL valve located on this system?

Answer 3

• Bain Circuit
• Blue circle depicts aPL below.

Question 4

In the figure below, what portion of the anesthesia circle system is indicated by 1?

Answer 4

Inspiratory Unidirectional Valve

Question 5

In the figure below, what portion of the anesthesia circle system is indicated by pink arrow?

Answer 5

Fresh Gas Inlet (O₂ & medical air)

Question 6

In the figure below, what portion of the anesthesia circle system is indicated by 2?

Answer 6

CO₂ Absorber

Question 7

In the figure below, what portion of the anesthesia circle system is indicated by 3?

Answer 7

Bag/Ventilator Selector Switch

Question 8

In the figure below, what portion of the anesthesia circle system is indicated by 4?

Answer 8

APL Valve

Question 9

In the figure below, what portion of the anesthesia circle system is indicated by 5?

Answer 9

Expiratory Unidirectional Valve

Question 10

In the figure below, what portion of the anesthesia circle system is indicated by 6?

Answer 10

Expiratory Limb

Question 11

In the figure below, what portion of the anesthesia circle system is indicated by 7?

Answer 11

Y-Piece

Question 12

When fresh gas flow (FGF) exceeds V̇_T then you have _________________.

Answer 12

High Flow Anesthesia

Question 13

When V̇_T exceeds fresh gas flow (FGF) then you have _________________.

Answer 13

Low Flow Anesthesia

Question 14

When would one see lack of rebreathing, wasteful volatile use, and cool dried air?

Answer 14

High flow anesthesia

Question 15

When would one see lower volatile use, less cooling/drying of air, and slow changes in anesthetics?

Answer 15

Low flow anesthesia

Question 16

Do volatiles cause bronchostriction or bronchodilation?

Answer 16

Bronchodilaton

Question 17

How do volatiles cause bronchodilation?

Answer 17

• Blockage of VG Ca⁺⁺ channels
• Depletion of SR Ca⁺⁺

Question 18

Is the bronchodilatory effect of volatiles still present in someone with reactive airway disease?

Answer 18

• No (or very little effect). Bronchodilatory effects of volatiles require an intact epithelium, normal inflammatory processes, etc.

Question 19

Will volatiles cause bronchospasm on their own (in a patient with no history of bronchospasm)?

Answer 19

No

Histamine release or vagal afferent stimulation needed to cause spasm.

Question 20

In a patient without history of bronchospasm, how much would you anticipate PVR to change with 1-2 MAC?

Answer 20

PVR would be unchanged in patient with no history of bronchospasm.

Question 21

What risk factors increase risk of bronchospasm?

Answer 21

• COPD
• Coughing w/ ETT in place
• <10 years old
• URI

Question 22

What anesthetic is generally the best at bronchodilating?

Answer 22

• Halothane (1st)
• Sevoflurane (2nd)

Question 23

Which anesthetic can function as a pulmonary irritant (especially in smokers)?

Answer 23

Desflurane

Question 24

Which volatile anesthetic in the graph below caused the greatest increase in airway resistance?
Lowest?

Answer 24

• Desflurane = ↑ airway resistance
• Sevoflurane = ↓ airway resistance

Question 25

Inhaled anesthetics engender a dose-dependent skeletal muscle relaxation. T/F?

Answer 25

True

Question 26

Which volatile gas has no effect on the relaxation of skeletal muscles?

Answer 26

N₂O

Question 27

Will volatiles potentiate or inhibit NMBD’s? How?

Answer 27

Potentiate via sensitization of nACh receptors at NMJ.

Question 28

How do volatile anesthetics cause skeletal muscle relaxation as a solo agent?

Answer 28

Volatiles cause skeletal muscle relaxation via enhancement of glycine at the spinal cord.

Question 29

What is ischemic preconditioning?

Answer 29

Brief periods of ischemia preparing the heart for longer periods of ischemia.

Question 30

Ischemic preconditioning with volatile anesthetics can occur as low as ______ MAC.

Answer 30

0.25

Question 31

Why does ischemic preconditioning happen?

Answer 31

• ↑ PKC activity
• Phosphorylation of ATP sensitive K⁺ channels
• Production of ROS (Reactive Oxygen Species)
• Better regulation of vascular tone.

Question 32

What molecule mediates ischemic preconditioning?

Answer 32

Adenosine

Question 33

What does ischemic preconditioning prevent?

Answer 33

• Reperfusion injuries
• Cardiac dysrhythmias
• Contractile dysfunction
• Delays MI’s in CAD patients.

Question 34

At what dose does volatile depression of CMRO₂ begin?

Answer 34

0.4 MAC

Question 35

At what MAC would we see EEG burst suppression?
What about total electrical silence?

Answer 35

• 1.5 MAC = burst suppression
• 2 MAC = EEG silence

Question 36

Which volatile causes the most EEG suppression?

Answer 36

Trick question. They all affect EEG’s the same.

Question 37

Which volatiles have anticonvulsant activity?

Answer 37

Des, Sevo, & Iso at high concentrations & with hypocarbia.

Question 38

Which volatile is a proconvulsant?

Answer 38

Enflurane

Question 39

Give an example of a somato-sensory evoked potential (SSEP).

Answer 39

Stimulation of the foot evoking an electrical response in the CNS.

Question 40

Give an example of a motor-evoke potential (MEP).

Answer 40

Direct stimulation of the brain eliciting a twitch response in the hand.

Question 41

You have a case where SSEPs and MEPs need to be monitored, what general anesthetics options do you have?

Answer 41

• TIVA
• N₂O 60% and 0.5 MAC volatile.

Question 42

What specific effects will volatile agents have on SSEPs and MEPs?

Answer 42

Dose-dependent (0.5 - 1.5MAC):

• ↓ amplitude
• ↑ latency (delayed frequency)

Question 43

What occurs with cerebral blood flow with volatile administration?

Answer 43

Dose dependent:

• ↑ CBF due to dilated vessels
• ↑ ICP

Question 44

At what MAC would you expect to start to see an increase in CBF due to volatile administration?

Answer 44

At > 0.6 MAC

Question 45

Which volatile has less vasodilatory effects?

Answer 45

Sevoflurane

Question 46

Which volatile has the greatest effect on increasing CBF? (and thus ICP)

Answer 46

Halothane

Question 47

Which volatile is the best for neuro cases? Why?

Answer 47

Sevoflurane

(preserves autoregulation mechanism up to 1 MAC).

Question 48

What patient population is most at risk due to the ICP increasing effects of volatile agents?

Answer 48

Patients with CNS occupying tumor/lesion.

Question 49

What average ICP increase is seen with volatile use?

Answer 49

7mmHg

Question 50

At what volatile dosage does ICP increase?

Answer 50

> 0.8 MAC

Question 51

What do volatiles do to the respiratory system?

Answer 51

Dose dependent:

• Tachypnea
• ↓ V_T

Question 52

How do volatiles cause their respiratory effects?

Answer 52

• Direct depression of medullary ventilatory center.
• Interference with intercostal muscles.

Question 53

At what volatile dosage would apnea be seen?

Answer 53

1.5 - 2 MAC

Question 54

All volatiles with blunt both the hypoxic and hypercarbic response. T/F?

Answer 54

False. N₂O does not blunt the hypercarbic response.

Question 55

How can the hypercarbic response be preserved whilst using volatile anesthetic gasses?

Answer 55

• Use N₂O and volatile together.

Question 56

What effect is seen in the graph below?

Answer 56

Use of N₂O-desflurane decreasing CO₂ induced hypercarbia compared to desflurane alone.

Question 57

What is hypoxic pulmonary vasoconstriction?

Answer 57

Contraction of pulmonary arteries to shunt blood away from poorly ventilated portions of the lung.

Question 58

When is the blunting of HPV most concerning?

Answer 58

When one lung ventilation is being utilized.

Question 59

How fast is the HPV response?

Answer 59

Fast: within 5 minutes regional blood flow is ½ of normal.

Question 60

50% depression of HPV occurs at ___ MAC.

Answer 60

2

Question 61

Which volatile(s) does not cause cardiac depression?

Answer 61

N₂O

Question 62

How do volatiles cause hypotension?

Answer 62

• Direct myocardial depression by altering Ca⁺⁺ entry and SR function.

Question 63

Volatiles will cause a dose-dependent decrease in ______ , ______ , and CO.

Answer 63

contractility ; SV

Question 64

When is volatile depression of cardiac function most concerning?

Answer 64

With pathologic hearts (particularly pathologies of ↓ contractility)

Question 65

What volatile can cause significant tachycardia with overpressurization?

Answer 65

Desflurane

Question 66

When will sevoflurane begin to cause increases in heart rate?

Answer 66

Only at > 1.5 MAC

Question 67

What variables confound the tachycardic effect of volatiles?

Answer 67

• Anxiety
• Concurrent opioids
• β blockade
• Vagolytics

Question 68

What volatile is slightly sympathomimetic, causing a slight increase in CO?

Answer 68

N₂O

Question 69

Is the coronary steal effect of volatiles clinically significant?

Answer 69

Nope

Question 70

What electrocardiac effect do volatiles have?

Answer 70

QT prolongation via inhibition of K⁺ currents.

Question 71

Which volatile has minimal pro-arrhythmic activity?

Answer 71

N₂O

Question 72

What volatile is the gas of choice for EP ablations? Why?

Answer 72

• Sevoflurane
• Other volatiles increase refractoriness of accessory pathways making identification of arryhthmia location difficult.

Sevo gang.

Question 73

Volatile neuroendocrine modulation will cause a perioperative surge in _______, _______, and _______.

Answer 73

catecholamines; ACTH; & cortisol

Question 74

Volatiles will suppress what important immune system components?

Answer 74

Volatiles suppress monocytes, macrophages, and T-cells.

Question 75

What does the total neuroendocrine profile of volatile anesthetics suggest for cancer patients undergoing surgery?

Answer 75

Neuraxial anesthesia is likely better than GA for cancer patients.

Question 76

What hepatic blood flow changes are seen with volatile administration?

Answer 76

Portal vein dilation = ↑ portal vein flow.

Question 77

Which volatile is the only one that decreases portal vein flow?

Answer 77

Halothane (likely contributes to halothane hepatitis)

Question 78

What is volatile hepatotoxicity?
When is it a concern?

Answer 78

• Inadequate oxygenation of liver cells via ↓ blood flow and ↑ O₂ demand.
• Concern for patients with preexisting liver disease.

Question 79

What is Type 1 Volatile hepatotoxicity?

Answer 79

• Direct toxicity or free radical effect 1-2 weeks post surgically with N/V & fever in 20% of patients.

Question 80

What is Type 2 Volatile Toxicity?

Answer 80

• Reaction caused only with previous exposure to volatile with eosinophilia, fever, and higher mortality rate from hepatitis and necrosis.

Question 81

Which volatile is the choice anesthetic for severe liver disease? Why?

Answer 81

Sevoflurane: broken down to vinyl halide and won’t stimulate antibody production causing a Type II reaction.

Sevo the GOAT gas fr

Question 82

What volatiles are metabolized into acetyl halides? What is the significance of this?

Answer 82

Enflurane > Iso > Des

• Acetyl halides can cause antibody reactions especially with previous exposure to halothane or enflurane.

Question 83

What are the renal effects of volatile anesthetics?

Answer 83

Dose dependent decrease in RBF, GFR, and UO from CO depression.

Question 84

How can the renal effects of volatile anesthetics be counteracted?

Answer 84

Hydration (both pre-operative and intra-operative).

Question 85

What other organ (besides the heart) undergoes protective ischemic preconditioning from volatile anesthetics?

Answer 85

Kidneys

Question 86

What toxic metabolites of volatiles can cause nephrotoxicity?
Why is this not an issue typically?

Answer 86

• Fluoride metabolites
• Newer volatiles are exhaled prior to being metabolized.

Question 87

What volatile is 70% metabolized and can cause fluoride metabolite nephrotoxicity more than any of the other volatiles?

Answer 87

Methoxyflurane

Question 88

What measure is utilized in CO₂ absorbents today to help prevent the formation of compound A?

Answer 88

75% or greater concentrations of calcium hydroxide.

Question 89

What volatile is predisposed to starting fires? Why?

Answer 89

• Sevoflurane
• Sevo + baralyme (absorbent) produce methanol and formaldehyde causing a heat and and eventual explosion.

Question 90

How is sevoflurane fire avoided?

Answer 90

• Addition of H₂O to Sevo
• Check temp of absorbent cannister
• Exchange exhausted absorbents

Question 91

Which volatile anesthetics are emetogenic?

Answer 91

All

Question 92

What rate of PONV is seen with two triggering agents? (ex. desflurane and fentanyl)

Answer 92

25 - 30% PONV

Question 93

When is N₂O emetogenic?

Answer 93

At greater than 50% or 0.5 MAC

Question 94

Why is N₂O administration in a pregnant patient with B₁₂ deficiency dangerous?

Answer 94

N₂O will oxidize the cobalt ion in B₁₂ thus inhibiting methionine synthase = inhibition of DNA synthesis in fetu.

Question 95

Which volatile anesthetic can cause bone marrow suppression?

Answer 95

N₂O

Question 96

What is the result from increases in plasma homocysteine levels from N₂O administration?

Answer 96

If the patient also has low B vitamins and atherosclerosis, then N₂O increases risk of myocardial events.

Question 97

What is/are the obstetric effects of volatile anesthetics?

Answer 97

Dose-dependent (0.5 - 1.0 MAC) decrease in uterine smooth muscle contractility.

Question 98

When would a decrease in uterine muscle tone be useful?

Answer 98

With retained placenta

Question 99

When would an increase in uterine muscle tone be useful?

Answer 99

Uterine atony (↑ blood loss)

Question 100

Why is N₂O useful in mom’s post delivery?

Answer 100

Swiftly increases analgesia without opioid/benzo’s (use as the spinal starts to wear off).

Question 101

Which volatiles have a sweeter smell?

Answer 101

• Halothane
• Sevoflurane

Question 102

What is the only real benefit of halothane?

Answer 102

↓ N/V

Question 103

What are the four major concerns of halothane?

Answer 103

• Catecholamine-induced arrhythmias
• Hepatic necrosis
• Pediatric bradycardia
• Decomposing into HCL acid.

Question 104

Which two volatiles can’t be used for induction due to their awful smell?

Answer 104

• Isoflurane
• Desflurane

Question 105

Which volatile does not degrade, even after 5 years of storage?

Answer 105

Isoflurane

Question 106

If a vaporizer has a heating element, then the gas for that vaporizer can be assumed to be ____________.

Answer 106

• Desflurane

Question 107

List the order in which volatiles will degrade into carbon monoxide if the absorbent becomes exhausted.

Answer 107

Desflurane (worst) > Enflurane
> Isoflurane > Sevoflurane (trivial)

Sevo on top per usual.

Question 108

Which volatile anesthetic would be the choice for inhalation induction? Why?

Answer 108

• Sevoflurane
• Least airway irritation & smells sweet.

Yet another example of sevo superiority.

Question 109

Which volatile causes the least increase in ICP?

Answer 109

Sevoflurane

In Sevo, we trust.

Question 110

How does N₂O produce skeletal muscle relaxation?

Answer 110

Trick question. It does not.

Question 111

What are the benefits of N₂O ?

Answer 111

• Good analgesia
• 2nd gas effect

Question 112

What are the major cons of N₂O ?

Answer 112

• N/V @ 0.5 MAC
• ↑ PVR
• No surgeries with air filled spaces