Lecture 12 (Exam 3 Inhaled Anesthetics Part 2)

Question 1

What are the four functions of the anesthesia circuit?

Answer 1

1. Delivers O2
2. Delivers inhaled drugs
3. Maintain temperature/ humidity
4. Removes CO2 and exhale drugs

Question 2

What three types of circuits?

Answer 2

1. Rebreathing (Bain)
2. Non-rebreathing (Self-inflating Bag Valve Mask - Ambu Bag)
3. Circle System

Question 3

What kind of circuit is used when transporting an intubated patient to ICU?

Answer 3

Bain Circuits

They are very portal and minimalistic

Question 4

What circuit is used in anesthesia machines?

Answer 4

Circle System

Question 5

When fresh gas enters the circle system from the fresh gas inlet and goes towards the inspiratory limb. Why can’t gas flow backward?

Answer 5

There is an inspiratory unidirectional valve that prevents the backward flow of gas.

Question 6

From the inspiratory limb, where will gas flow next?

Answer 6

Gas will flow into the Y-piece and end up in the ETT or LMA.

Question 7

Expired gas will go back through the ________ and travel toward the expiratory limb and through the expiratory unidirectional valve.

Answer 7

Y-piece

Question 8

Where will gas go after leaving the expiratory unidirectional valve?

Answer 8

Gas will either go toward the ventilator or into the reservoir bag.

Question 9

What is high-flow inhalation anesthesia?

What are some downsides to high-flow anesthesia?

Answer 9

Fresh gas flow (FGF) exceeds minute ventilation.
High flow allows providers to make rapid changes in anesthetics (induction) and prevents rebreathing.

Wasteful and cool/dries delivered volume.

Question 10

What is low-flow inhalation anesthesia?

What are some downsides to low-flow anesthesia?

Answer 10

Fresh gas flow (FGF) less than minute ventilation. Low cost, conserves gas, less/cooling, and drying.

A very slow change in anesthesia

Question 11

Factors that contribute to the price/cost of anesthesia.

Answer 11

Cost of liquid/ml
Vol % of anesthetic delivered - Potency
Fresh gas flow rate

Desflurane is expensive, often refilled d/t MAC at 6.6%

Question 12

How do volatile anesthetics cause bronchodilation?

What happens if you have a damaged epithelium

Answer 12

Relax airway smooth muscle by blocking VG Ca2+ channels. Depletion of Ca2+ in SR.

For bronchodilation to occur, there needs to be an intact epithelium. Inflammatory processes and epithelial damage will result in no bronchodilation (asthma).

Question 13

A patient without a history of bronchospasm will not see baseline pulmonary resistance change with ____ to ___ MAC of volatile anesthetics.

Answer 13

1 to 2 MAC

Question 14

For a patient with a history of bronchospasm which volatile gas will be most beneficial for bronchodilation?

Which gas will worsen bronchospasm for smokers?

Answer 14

Sevoflurane (best bronchodilator)

Desflurane

Question 15

What are the 3 best anesthetic gases to use if you do not want to encounter respiratory resistance?

Answer 15

1. Sevoflurane (best choice)
2. Halothane
3. Isoflurane

Question 16

What are the neuromuscular effects of volatile anesthetics?

Answer 16

Dose-dependent skeletal muscle relaxation, not paralysis. Although, they do potentiate the depolarizing and non-depolarizing NMBD (nAch receptors at NMJ and enhance glycine in the spinal cord).

Question 17

What gas has no effect on skeletal muscles?

Answer 17

Nitrous Oxide

Question 18

What is ischemic preconditioning?

Answer 18

If the heart recognizes brief periods of ischemia before being subjected to longer periods of ischemia, the heart is able to prepare itself for the longer period of ischemia.

Question 19

Ischemic precondition is mediated by _______.
Increase protein kinase C activity phosphorylates _____________ channels. This will lead to the production of ___ and lead to better regulation of vasculature tone.

Answer 19

Adenosine
ATP-sensitive K+ channel
reactive oxygen species

ATP-sensitive K+ channels in the heart will slow down HR. ROS production will cause vasoconstriction.

Question 20

Ischemic preconditioning can occur with __________ MAC.

Answer 20

0.25

Barely turning on the vaporizer.

Question 21

What are the benefits of ischemic preconditioning?

Clinically, when can ischemic preconditioning be useful?

Answer 21

Prevents “reperfusion injury”
Do not see as many cardiac dysrhythmias.
Less contractile dysfunction.

Clinically apparent in delaying MI for PTCA or CABG.

Question 22

How will volatile anesthetics affect CNS activity?

Answer 22

Dose-dependent decrease in CMRO2 and cerebral activity.

Question 23

At ______ MAC, wakefulness changes to unconsciousness.

What MAC will there be burst suppression?

What MAC will there be electrical silence?

Answer 23

0.4

1.5

2.0

Question 24

Rank the 3 volatiles in relation to decreasing CMRO2 and cerebral activity.

Answer 24

Isoflurane, sevoflurane, and desflurane all have equal effects on CNS activity.

Question 25

Which volatiles have anticonvulsant activity?

Which volatiles have pro-convulsant activity?

Answer 25

Des, Iso, and Sevo

Enflurane (pro-convulsant) - especially above 2 MAC or PaCO2< 30 mmHg

Question 26

How will volatile anesthetics affect somatosensory evoked potentials (SSEP) or motor evoked potentials (MEP)?
Dose dependence ____ in ____ and increase in _____ with MAC ranges ____
How is this a problem?

Answer 26

A dose-related decrease in amplitude and increase in latency (drawn out) with a 0.5 to 1.5 MAC.

Harder to discern whether or not there is damage to the spinal cord.

Question 27

What is SSEP?

Answer 27

There will be a stimulation to a periphery (foot), and response will be measured in the brain to ensure adequate neurotransmission up the spinal cord.

Question 28

What is MEP?

Answer 28

There will be a stimulation of the brain and response will be measured in the periphery (foot/arm) to ensure adequate transmission down the spinal cord.

Question 29

How do you prevent the negative effects on SSEP and MEP monitoring when using volatiles?

Answer 29

Do not use more than 0.5 MAC if you are monitoring SSEP or MEP for spinal cases.

Instead, use 0.5 MAC of volatile with 60% of N2O or IV anesthetic (propofol, precedex).

Question 30

How do volatile anesthetics affect CBF?

Answer 30

Increase CBF d/t decrease cerebral vascular resistance. This can result in an increase in ICP.

Question 31

At what MAC will there be an onset of CBF increase?

Answer 31

Above 0.6 MAC
Can occur within minutes despite the lack of BP change.

Question 32

What is the best volatile anesthetic to use for a patient with a known increase ICP?

Which volatile will have the greatest vasodilatory effect?

Answer 32

Sevoflurane has the least vasodilatory effect. (not shown in graph)

Halothane will have the greatest vasodilatory effect resulting in the greatest increase in CBF.

Question 33

Autoregulation maintains cerebral blood flow relatively constant between ____ and ______ mm Hg mean arterial pressure

Answer 33

60 to 160 mmHg

Question 34

How do volatile anesthetics affect the autoregulation of cerebral blood flow?

Answer 34

Dose-dependent loss of autoregulation.

Question 35

Autoregulation will be lost by what MAC with Halothane.
What MAC for Sevoflurane?
What MAC for Isoflurane and des

Answer 35

Halothane: 0.5 MAC
Sevo: 1 MAC (Best at preserving autoregulation)
Iso: 0.5-1.5 MAC
Des: 0.5 -1.5 MAC

Question 36

What is the volatile of choice for neuro anesthetics?

Answer 36

Sevoflurane can preserve autoregulation up to 1 MAC.

Question 37

Which patients are at the most risk of increased ICP from volatiles?

Answer 37

Patients with space-occupying lesions and tumors are at the most risk.

Question 38

How does hyperventilation decrease ICP?

Answer 38

Inducing hypocapnia via hyperventilation reduces PaCO2, which will cause vasoconstriction in the cerebral arterioles decreasing ICP.

Short-term fix for increasing ICP (15 mins)

Question 39

At what MAC will there be an increase ICP?

How much will ICP increase?

Answer 39

0.8 MAC

Increase by 7 mmHg.

Question 40

How do volatile anesthetics affect respiration?

Answer 40

A dose-dependent increase in rate and decrease in tidal volume.

Question 41

How do volatile anesthetics cause respiratory depression?

Answer 41

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

Rate change insufficient to maintain minute ventilation, there will still be alteration in PaCO2 that indicates respiratory depression.

Question 42

At what MAC will there be apnea?

Answer 42

1.5 to 2.0 MAC

Question 43

Hypoxic responses are mediated by the _________.

How do volatile anesthetics affect hypoxic responses?

Answer 43

Carotid bodies

Blunt hypoxic response

Question 44

There will be a 50-70% depression in hypoxic response with ______ MAC.

100% depression at ______ MAC

Answer 44

0.1 MAC

1.1 MAC

Question 45

Which gasses will blunt the hypoxic response?

Answer 45

All volatiles including nitrous.

Question 46

What are the effects of volatiles on hypercarbic response?

Answer 46

Dose-dependent blunting of hypercarbic response.

Question 47

Which gasses will not blunt the hypercarbic response?

Answer 47

Nitrous does not increase PaCO2.
A great substitution for part of MAC.

Question 48

Intrapulmonary arteries constrict in response to alveolar hypoxia, diverting blood to better-oxygenated lung segments to optimize V/Q matching. What is this process called?

Answer 48

Hypoxic Pulmonary Vasoconstriction

Question 49

When the alveoli have not been ventilating for ________ minutes. HPV will kick in and reduce the blood flow to the poorly ventilated area by ________%.

Answer 49

When the alveoli have not been ventilating for 5 minutes. HPV will kick in and reduce the blood flow to the poorly ventilated area by 50%.

Question 50

How do volatile anesthetics affect HPV?

Answer 50

A dose-dependent decrease in HPV response.

Question 51

There will be a 50% depression in HPV at ______ MAC.

Answer 51

2 MAC

Question 52

How do volatile anesthetics cause myocardial depression?

Answer 52

Inhibits calcium entry, and alters SR function. There will be a decrease in contractility, SV, and CO (Halothane Hearts). The decrease in MAP is primarily d/t decrease in SVR.

Question 53

What gas will not cause cardiac depression?

Answer 53

Nitrous

Question 54

How do volatile anesthetics affect heart rate?

Answer 54

A dose-dependent increase in HR.

Question 55

Sevoflurane will see a HR increase at a MAC greater than ________.

Answer 55

1.5 MAC

Iso and Des will require a lower MAC for HR increase

Question 56

What happens to HR with desflurane overpressurization?

Answer 56

A significant increase in HR (60 bpm to 140 bpm).

Question 57

Even though volatile anesthetics tend to increase heart rate we don’t usually see it in the OR. Why is that?

Answer 57

The patient is usually on other medications that will help offset the tachycardia.

Examples:
Pre-op meds: BZD
Opioids
Beta-blockade
Vagolytic administration

Question 58

What is the effect of the volatile anesthetic on cardiac output?

Answer 58

A dose-dependent decrease in CO (offset by a mild increase in HR for most volatiles).

Question 59

What is the effect of nitrous on CO?

Answer 59

Mild increase in CO.

Question 60

Which volatile anesthetic will have the largest decrease in the cardiac index?

Answer 60

Halothane

Question 61

Which gas has minimal proarrhythmic effect?

Answer 61

Nitrous

Question 62

Which volatile anesthetic will be used in an ablation case?

Answer 62

Sevoflurane will not increase the refractoriness of accessory pathways. This will be the best gas to use if you want to evaluate if the ablation was successful.

In actual settings, general anesthetics will not be used in ablation cases. Sedation cases.

Question 63

Immune effect of volatile anesthetics.
What 2 things will be activated? What 3 hormones will increase¿
What will be suppressed?

Answer 63

Activation of the autonomic nervous system.
Activation of the Hypothalamic-Pituitary-Adrenal Axis (HPAA)
There will be an increase in catecholamines, ACTH, and cortisol.

Suppression of monocytes, macrophages, and T-cells

Question 64

Some studies suggest GA compared to neuraxial have increase _____- and increase ________.

Answer 64

metastasis
mortality

Question 65

How do volatile anesthetics affect hepatic blood flow?
What do volatiles dilate ¿

Answer 65

Total hepatic blood flow and hepatic artery flow are maintained.

Volatiles dilate the portal vein which will increase blood flow.

Question 66

At what MAC will the portal vein flow increase?

Answer 66

1 to 1.5 MAC.

(Iso, Des, Sevo)

Question 67

Which gas will decrease hepatic flow and decrease oxygen delivery?

Answer 67

Halothane
Halothane Hepatitis

Question 68

Hepatotoxicity occurs when there is inadequate _______ of hepatocytes.

Answer 68

oxygenation

Decrease blood flow, will lead to enzyme induction, increasing O2 demand.

Question 69

Type I Hepatotoxicity related to volatile gas:
Occurs in _____% of patients.
________ (length) after exposure.
Direct effects or free radicals.
Symptoms:

Answer 69

Type I Hepatotoxicity related to volatile gas:
Occurs in 20% of patients.
1-2 weeks after exposure.
Direct effects or free radicals.
Symptoms: Nausea, lethargy, fever

Question 70

Type II Hepatotoxicity related to volatile gas:
Less common
_________(length) after exposure.
High mortality rate d/t ________ and ________
Immune-mediated response against hepatocytes will present with ______ and _______.

Answer 70

Type II Hepatotoxicity related to volatile gas:
Less common
1 month after exposure.
High mortality rate d/t acute hepatitis and hepatic necrosis
Immune-mediated response against hepatocytes will present with fever and eosinophilia.

Question 71

Volatile anesthetics are metabolized through P450 to ___________ metabolites.

What gas is the exception?

Answer 71

Acetyl Halide

Sevoflurane
Metabolized to Vinyl Halide, metabolite does not cause antibody formation.

Question 72

When volatile anesthetics are oxidized by P450 to ______metabolite. The metabolites are capable of causing ___________.

Answer 72

Acetyl halide
antibody reaction

Most likely in patients sensitized by halothane and enflurane

Question 73

What is the best volatile anesthetic to give for someone with severe liver disease?

Answer 73

Sevoflurane

Question 74

What are the renal effects of volatile anesthetics?

Answer 74

A dose-dependent decrease in RBF, GFR, and U/O. This is not related to r/t vasopressin but CO.

Make sure patients are preoperatively hydrated
Like the heart, the kidneys can also be preconditioned

Question 75

Nephrotoxicity with volatiles is caused by _________.
What are the s/s

Answer 75

Fluoride metabolites.

Volatile anesthetics have fluoride in them
Hyper osmolarity, hypernatremia, increased creatinine

Question 76

Fluoride metabolites causes ______, _______, and ______.

Answer 76

Hyperosmolarity
Hypernatremia
Increase Creatinine

Question 77

Which volatile anesthetic causes the worst nephrotoxicity?

Answer 77

Methoxyflurane

70% metabolized, removed from the market

Question 78

No clinical data to demonstrate ____________ is a risk at low fresh gas flow to humans.

Answer 78

Compound A

Question 79

How can you tell if your CO2 absorbent has been desiccated (dried) or used up?

Answer 79

There will be a rise in ET CO2.

Question 80

How can Sevoflurane spontaneously combust?

Answer 80

Sevo can react with the desiccated absorbent and Baralyme (composition of absorbent) to produce methanol and formaldehyde. If heat is added to this product, Sevo can combust.

Water is added to sevoflurane to inhibit the production of methanol and formaldehyde. Check the temperature of the absorbent canister.

Question 81

How is MH diagnosed?

Answer 81

Caffeine contracture test

Question 82

What are the triggers of MH?

Answer 82

All volatile anesthetics and succinylcholine

Question 83

MH produces a hypermetabolic state of skeletal muscles that can lead to _____, _____, and ______.

Answer 83

Excessive release of calcium
Muscle ridgidity
Rhabdomyolysis

Question 84

Sx of MH 3

Answer 84

Increase body temp
Increase CO2 production
Increase O2 consumption

Question 85

MH has a ____% mortality if untreated.

Answer 85

80

Question 86

Tx for MH

What’s the MOA

Answer 86

Dantrolene
-Blocks intracellular Ca2+ release

Supportive care for rhabdo

Question 87

All volatile anesthetics can cause PONV.

If GA is given with two triggering agents (volatile and opioids) ___________% of patients will experience PONV.

Nitrous will cause pons at what Mac

Answer 87

25-30%

> 0.5

Question 88

Metabolic Effects:
What deficiency can be caused by N2O?

Answer 88

B12 deficiency
Developing fetus at risk

Make sure to use a scavenging system with pregnant mothers (first trimester) and avoid giving N2O

Question 89

Metabolic Effects:
What does N2O suppress?

Answer 89

Megaloblastic bone marrow suppression will result from being exposed to N2O for more than 24 hours or cumulative exposure.

Question 90

Metabolic Effects:
N2O can increase ________ levels.
Associated with increased levels of what

Answer 90

plasma homocysteine

Associated with low levels of B vitamins
Associated with increased levels of atherosclerosis
Can increase myocardial events

Question 91

What are the effects of volatile anesthetics on obstetrics?

Answer 91

A dose-dependent decrease in uterine smooth muscle contractility.
Volatile anesthetics can worsen blood loss in uterine atony.
Except nitrous

Question 92

Which gas has no effect on uterine contractility but can increase analgesia without opioids/BZD.

Answer 92

Nitrous

Question 93

Halothane is a halogenated ________.
Halthothane is compatible with ____________.
Smells _______and ________.
________ potency and _______ solubility.

Answer 93

Alkane
Inhalation Induction
Sweet and non-pungent
High potency and intermediate solubility

Question 94

Pros of Halothane:

Cons of Halothane:

Answer 94

Pros: Low N/V, non-flammable

Cons: Catecholamine-induced arrhythmias, hepatic necrosis, pediatric brady-arrhythmias, decomposes to HCl acid (thymol preservative added).

Question 95

Isoflurane is an isomer of _______.
Isoflurane is highly _______ and highly _____.
Isoflurane is not good for __________.

Answer 95

Enflurane
Highly pungent and highly potent
Inhalation induction

Question 96

Pros of Isoflurane:

Cons of Isoflurane:

Answer 96

Pros: Resistant to metabolism, unlikely to cause organ toxicity, Isoflurane is stable (no deterioration after 5 years).

Cons: Distillation is complex and expensive to purify

Question 97

Desflurane (Suprane) is a fluorinated _______.
Identical to __________ except that F is substituted for Cl-.
Desflurane has decrease _______ and ________
Desflurane has high ________.

Answer 97

methyl ethyl ether.
Identical to isoflurane
decrease solubility and decrease potency
high vapor pressure

Question 98

Which volatile anesthetic is the most pungent?

Answer 98

Desflurane (Suprane)

It will cause coughing, salivation, breath-holding, and laryngospasm.

Question 99

Over-pressurizing desflurane will cause ________ stimulation.

Answer 99

SNS

Question 100

Desflurane will degrade to _______ if the absorbent is dehydrated.

Answer 100

carbon monoxide

Desflurane degrades to carbon moxide the most > Enflurane > Isoflurane > Sevoflurane

Question 101

Sevoflurane (Ultane) is a fluorinated _________.
_______ Solubility
Smells _______
Least ________ of modern volatiles

Answer 101

Methyl Isopropyl Ether
Low Solubility
Smells sweet and non-pungent
Least airway irritation

Question 102

Sevoflurane is metabolized to what 2 things
Sevoflurane is least likely to form ________

Answer 102

inorganic fluoride and vinyl halides
carbon monoxide

Question 103

________ is not usually used as a sole anesthetic.

Answer 103

Nitrous Oxide
(Unable to deliver 1 MAC, need 104% which is impossible)

Question 104

N2O has ________ solubility and _______potency.
N2O does not produce __________ relaxation.
N2O smells ________.

Answer 104

Low solubility, low potency
no skeletal relaxation
Sweet-smelling, odorless

Question 105

Pros of N2O.

Cons of N2O.

Answer 105

Pros:
Good analgesia
2nd gas effect

Cons:
N/V >50% of patients
Increase Pulmonary Vascular Resistance
Neonates may increase right to left shunt
Jeopardize arterial oxygenation
Contraindicated in Bowel, Globes, Ear, Lung procedures

Question 106

What cardiac dysrhythmias can be presented with volatile anesthetics?

Answer 106

Prolonged QT interval in healthy patients d/t inhibition of potassium currents.

Potentially increase risk of Torsades.