PHARMACOLOGY | Inhaled Anesthetics Part II Flashcards

1
Q

What determines the rate of elimination of inhaled anesthetics?

A

SOLUBILITY

Dictum: Poorly soluble agents have faster recovery from inhaled anesthetics.

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2
Q

Macroscopic sites of ACTION for Inhaled Anesthetics:

A

Ablation of movement = Spinal Cord

Amnesia = Hippocampus

Sedation = Tubero-mamillary nucleus of HYPOTHALAMUS

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3
Q

True or False

MAC is equivalent to the principle of ED50 of the intravenous drugs

A

TRUE

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4
Q

TRUE gases:

A

N2O
Xenon

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5
Q

TRUE or FALSE

The inspired concentration and the blood:gas solubility of an inhaled anesthetic are the major determinants of the speed of induction. Solubility alone determines the rate of elimination, provided there is normal cardiopulmonary function.

A

True

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6
Q

All inhalation agents share a COMMON mechanism of action at the molecular level:

A

Unitary Hypothesis

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7
Q

MOST POTENT clinical Inhaled Anesthetic

A

ISOFLURANE

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8
Q

LEAST SOLUBLE clinical Inhaled Anesthetics

A

DESFLURANE

Fluorination decreases blood and tissue solubility (the blood:gas
solubility of desflurane equals that of N2O), which results in a loss of
potency. It also results in a high vapor pressure owing to
decreased intermolecular attraction, requiring an electrically driven, heated, pressurized vaporizer to deliver a regulated concentration of desflurane as a gas.

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9
Q

Nitrous oxide (N2O) can expand a pneumothorax to double or triple its size in:

A. 10 to 30 minutes
B. 5 minutes
C. 1 hour
D. 120 seconds

A

A. 10 to 30 minutes

Nitrous oxide (N2O) can expand a pneumothorax to double or triple
its size in 10 to 30 minutes. Abrupt discontinuation of N2O inhalation can transiently lower alveolar concentrations of
oxygen and carbon dioxide, a phenomenon called diffusion hypoxia.

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10
Q

TRUE or FALSE

Volatile anesthetics depress cerebral metabolic rate in a dose-dependent manner and at LOWER concentrations will
increase cerebral blood flow

A

FALSE

Volatile anesthetics depress cerebral metabolic rate in a dose-dependent manner and at HIGHER concentrations will
increase cerebral blood flow

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11
Q

The preservative present in Halothane

A

Thymol

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12
Q

Inhaled anesthetic with the lowest BOILING POINT:

A

N2O

boiling point of -88

At room temperature, most of the potent agents have a vapor pressure that is below atmospheric pressure. If the temperature is raised, the vapor pressure increases. The boiling point of a liquid is the temperature at which its vapor pressure exceeds atmospheric pressure in an open container.

Desflurane is bottled in a special container because its boiling point of 23 °C makes it boil at typical room temperatures.

Boiling does not occur within the bottle because it is countered by buildup of vapor pressure within the bottle, but once opened to air, the desflurane would quickly boil away.

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13
Q

Which inhaled anesthetics is ideal for Obese patients undergoing prolonged surgery?

A

DESFLURANE

Desflurane has the lowest blood:gas solubility of the potent volatile anesthetics; moreover, its fat solubility is roughly half that of the other volatile anesthetics. Thus, desflurane requires less downward titration toward the end of long surgical procedures to achieve a rapid emergence by virtue of decreased tissue saturation. This may be particularly advantageous in the morbidly obese patient.

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14
Q

The pharmacologic property of XENON which is responsible for its analgesic property is:

A. NMDA inhibition
B. GABA-A inhibition
C. Analgesic effect at the spinal cord level
D. Blunting of pain receptors at the cerebral cortex

A

A. NMDA inhibition

Xenon provides some degree of analgesia. Its blood:gas partition coefficient is 0.115, and unlike the other potent volatile anesthetics (except methoxyflurane), xenon provides some degree of analgesia. This action is likely due to N-methyl-D-aspartate (NMDA) receptor inhibition.

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15
Q

The MAC of xenon in humans?

A

71%

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16
Q

TRUE OR FALSE

Poorly soluble inhaled anesthetics have faster RECOVERY?

A

True

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17
Q

Which if the following has a potential toxic effects on cell function via inactivation of vitamin B12?

A. Sevoflurane
B. N2O
C. Isoflurane
D. Desflurane

A

B. N2O

Despite a long track record of use, controversy has surrounded N2O in four areas: its role in postoperative nausea and vomiting (PONV), its potential toxic effects on cell function via inactivation of vitamin B12, its adverse effects related to absorption and expansion into air-filled structures and bubbles, and lastly, its
effect on embryonic development.

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18
Q

The CNS partial pressure of inhaled anesthetics equals what pressure, which in turn equals alveolar pressure if cardiopulmonary function is normal:

A

Arterial partial pressure

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19
Q

This determines the speed of induction of the inhaled anesthetics?

A. Concentration of blood:gas solubility
B. MAC
C. oil:gas coefficient
D. Vapor pressure

A

A. Concentration of blood:gas solubility

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20
Q

Concentrations of inhaled anesthetics that provide loss of awareness and recall are about?

A

0.4 to 0.5 MAC

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21
Q

The typical time to loss of consciousness when delivering 8% sevoflurane via the face mask is:

A

60 SECONDS | 1 Minute

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22
Q

Which volatile anesthetic is metabolized to trifluoroacetate, thereby causing hepatotoxicity through an immunologic mechanism involving trifluoroacetyl hapten formation and a resulting autoimmune response.

A

HALOTHANE

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23
Q

Factors that can increase the RATE of fI/fA concentration:

A

Low Blood Solubility
Low CARDIAC OUTPUT
High Minute Ventilation
High pulmonary to arterial venous pressure

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24
Q

Ether-based volatile anesthetics which MAINTAIN or INCREASE hepatic artery blood flow:

A

S I D

Sevoflurane
Isoflurane
Desflurane

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25
Q

Which tissue group plays the greatest role in determining emergence time?

A

FAT

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26
Q

What is the effect of a R to L shunt on speed on inhaled induction?

A

Slows the induction onset

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27
Q

MAC decreases approximately how many percent per decade

A

6%

28
Q

True or false

Volatile anesthetics decrease ventilatory response to hypercarbia and hypoxia and INCREASE respiratory rate.

A

TRUE

29
Q

CO2 absorbent degrade, sevoflurane, isoflurane and desflurane to CO when the normal water content of the absorbent (13 to 15%) is markedly decreased to?

A

< 5%

30
Q

Are volatile anesthetics ionized or non ionized?

A

Non-inonized

31
Q

Potent volatile anesthetics are LIQUIDS at ambient temperature and pressure except for?

A. Desflurane
B. Isoflurane
C. N2O
D. Enflurane

A

A. Desflurane

32
Q

The fractional concentration of anesthetic leaving the circuit is designated as?

A

Fraction inspired (Fi)

33
Q

Is the ratio of dissolved gas (by volume) in two-tissue compartment at equilibrium

A

Partition coefficient

34
Q

Loss of inhaled anesthetic via the skin is greatest with what anesthetic?

A. N2O
B. Enflurane
C. Sevoflurane
D. Desflurane

A

A. N2O

35
Q

Is the alveolar concentration of anesthetic that blunts adrenergic responses to noxious stimuli

A

MAC-BAR

50% higher than standard MAC

36
Q

How much decrease in MAC at the age of 40 to 80?

A

22%

37
Q

How about age 1 to 40 years old?

A

27%

38
Q

Sevoflurane preserves autoregulation up to approximately how much MAC?

A

1 MAC

39
Q

The increase in CBF with increasing anesthetic dose occurs despite decreases in CMRO2. This phenomenon is referred to as?

A

Uncoupling

40
Q

Inhalation agents in order of most potent to least potent are as follows:

A

Methoxyflurane < Halothane < Isoflurane < Sevoflurane < Desflurane < N2O.

41
Q

TRUE or FALSE

Nitrogen cannot be removed readily via the bloodstream in air-filled spaces. As a result, it diffuses from the blood into these closed gas spaces quite easily until the partial pressure equals that of the blood and alveoli.

A

TRUE

42
Q

TRUE or FALSE

Seventy-five percent N2O can expand a pneumothorax to double or triple its size in 10 and 30 minutes

A

TRUE

Air-filled cuffs of pulmonary artery catheters and endotracheal tubes also expand with the use of N2O, possibly causing tissue damage via increased pressure in the pulmonary artery or trachea, respectively. Accumulation of N2O in the middle ear can diminish hearing postoperatively8 and is contraindicated for tympanoplasty because the increased pressure can dislodge a tympanic graft.

43
Q

True or False

The lower the MAC the more potent the agent.

A

TRUE

MAC is the alveolar concentration of an anesthetic at one atmosphere (in volume%) that prevents movement in response to a
surgical stimulus in 50% of patients. It is analogous to the ED50 expressed for intravenous drugs and can be used to compare anesthetic potency, that is, the lower the MAC the more potent the agent.

44
Q

True of MAC except:

A. MAC-BAR is the alveolar concentration of anesthetic that blunts adrenergic responses to noxious stimuli.

B. MAC-BAR has been approximated at 50% higher than standard MAC

C. Administering 0.5 MAC of a potent agent and 0.5 MAC of N2O is equivalent to 1 MAC of potent agent in terms of preventing patient movement

D. Increased central neurotransmitter levels has NO effects on MAC

A

D. Increased central neurotransmitter levels has NO effects on MAC

It is a false statement because anything that increases the central neurotransmitter levels increase the MAC.

45
Q

True or False

Factors that decrease CNS metabolic activity, neurotransmission, and CNS neurotransmitter levels, as well as downregulated CNS responses to
chronically elevated neurotransmitter levels, all seem to decrease MAC

A

True

46
Q

Which of the following factors decreases MAC value?

A. Duration of administration,
B. Gender
C. Type of surgical stimulation
D. Chronic dextroamphetamine administration
E. Red-haired female

A

D. Chronic dextroamphetamine administration

47
Q

True or False

All the potent agents increase CBF in a dose-related manner

A

TRUE

48
Q

This phenomenon is when an increase in CBF with increasing anesthetic dose occurs despite decreases in CMRO2

A

UNCOUPLING

49
Q

Sevoflurane preserves autoregulation up to approximately how much MAC?

A

1 MAC

50
Q

The ideal agent for neurosurgical procedure:

A

Isoflurane

51
Q

What is the effect of Hypercapnia on CBF?

A

Significant hypercapnia is associated with dramatic increases in CBF whether or not volatile anesthetics are administered.

On the other hand, hypocapnia can blunt or abolish volatile anesthetic-induced increases in CBF depending on when the hypocapnia is produced. This vasoreactivity to CO2 may be somewhat altered by the volatile anesthetics as compared with
normal.

52
Q

True or False

Isoflurane does not abolish hypocapnic vasoconstriction

A

TRUE

53
Q

ISOFLURANE on Neurophysiology:

A
  • Isoflurane to decrease CMRO2
  • Isoflurane increases ICP minimally
  • Isoflurane does not abolish hypocapnic vasoconstriction
  • When isoflurane is used to lower BP and cerebral perfusion, tissue oxygen content is improved as compared to a similar BP effect created by other pharmacologic means
54
Q

True or False

At greater than 2 MAC, all of the potent agents can produce burst suppression or electrical silence

A

TRUE

55
Q

TRUE or False

The anesthetic concentration that produces
cardiovascular collapse exceeds the concentration that results in apnea.

A

TRUE

56
Q

True or False

Nitrous oxide has unique cardiovascular
actions. It increases sympathetic nervous system activity and vascular resistance when given in a 40% concentration

A

TRUE

When N2O is combined with volatile anesthetics, systemic vascular resistance and BP are greater than when equipotent concentrations of the volatile anesthetics are evaluated without N2O

57
Q

True or False

Oxygen consumption is decreased approximately 10% to 15% during
general anesthesia

A

TRUE

58
Q

TRUE of hemodynamic effects of volatile anesthetics except:

A. Blood flow to liver, kidneys, and gut is DECREASED, particularly at deep levels of anesthesia

B. Blood flow to the brain, muscle, and
skin is DECREASED or not changed during general anesthesia

C. Spontaneous ventilation in theory would improve the safety of volatile anesthetic administration because the anesthetic concentration that produces cardiovascular collapse exceeds the concentration that results in apnea

D. N2O INCREASES sympathetic nervous system activity and vascular resistance when given in a 40% concentration

E. The volatile anesthetics prolong QTc interval, predisposing the patient to arrhythmias

A

B. Blood flow to the brain, muscle, and
skin is DECREASED or not changed during general anesthesia

59
Q

TRUE of the ventilatory effect of volatile anesthetics EXCEPT:

A. Isoflurane does not increase respiratory rate above 1 MAC

B. Volatile anesthetics increases RR and tidal volume

C. Volatile agents produce a dose dependent Increase RR and decrease TV

D. gradual decrease in minute venitlation increases the resting PaCO2

E. When N2O is added to inhaled volatile anesthetics PaCO2 increases in a degree similar to equi-MAC concentrations of the volatile anesthetic in O2.

A

B. Volatile anesthetics increases RR and tidal volume - FALSE statement

All potent volatile anesthetics increases RR but DECREASES tidal volume.

All volatile anesthetics decrease tidal volume and increase respiratory rate such that the decrease in minute ventilation at low inspired concentrations is relatively minor. The ventilatory depressant effects of volatile anesthetics at higher concentrations are dose dependent, with higher concentrations of volatile anesthetics resulting in greater decreases in tidal volume and greater increases in respiratory rate. Isoflurane is an exception in that it does not increase respiratory rate above 1 MAC.

60
Q

Which of the following variables is MOST directly responsible for the depth of anesthesia using volatile anesthetics?

A. Blood-gas partition coefficient
B. MAC of the volatile agent delivered
C. Volume percentage of the volatile agent delivered
D. Partial pressure of the volatile agent delivered

A

A. Blood-gas partition coefficient

Anesthetic depth is determined by the partial pressure of volatile anesthesia delivered to the brain. Minimal anesthetic concentration (MAC) values and percentages of volatile anesthesia are commonly used when discussing the depth of anesthesia, but it is the partial pressure of volatile anesthesia in the brain that determines the depth of anesthesia.
The volume percent of gas can be calculated by the partial pressure of the gas in mmHg divided by the atmospheric pressure in mmHg. For isoflurane, 1% isoflurane is equal to 7.6 mmHg (the partial pressure) divided by 760mmHg (atmospheric pressure at sea level.) MAC values were calculated as percentages of volatile anesthesia delivered at sea level (volume/volume percent) and are useful clinically since the vaporizers are marked by percentage and not partial pressure. MAC is measure of relative anesthetic potency

Reference: Open Anesthesia Question of the day

61
Q

TRUE of volatile anesthetic effect on neuromuscular system EXCEPT:

A. Relaxation of skeletal muscle is most prominent for potent volatile anesthetics above 1.0 MAC

B. Nitrous oxide does not affect skeletal muscle relaxation

C. It directly relax skeletal muscle through a dose-dependent effect

D. Above 1.0 MAC the effect of volatile anesthetic is enhanced by 40% in patients with myasthenia gravis

E. The potentiation of NMB agents with volatile anesthetic appears to be largely because of a presynaptic effect at the muscarinic acetylcholine receptor located at the neuromuscular junction

A

E. The potentiation of NMB agents with volatile anesthetic appears to be largely because of a presynaptic effect at the muscarinic acetylcholine receptor located at the neuromuscular junction - FALSE statement

  • The potentiation of NMB agents with volatile anesthetic appears to be largely because of a POSTSYNAPTIC effect at the NICOTINIC acetylcholine receptor located at the neuromuscular junction.
62
Q

True or False

The hallmark findings of MH are a rapidly rising temperature, increasing up to 1 °C every 5 minutes along with increasing end-tidal CO2, arrhythmias, mixed respiratory/metabolic acidosis, and skeletal muscle rigidity

A

TRUE

63
Q

True or False

Uterine relaxation/atony can become problematic at concentrations of volatile anesthesia greater than 1 MAC

A

TRUE

Uterine relaxation/atony can become problematic at concentrations of volatile anesthesia greater than 1 MAC and might delay the onset time of newborn respiration. Consequently, a common technique used to provide general anesthesia for urgent cesarean sections is to administer low concentrations of the volatile anesthetic, such as 0.5 to 0.75 MAC, combined with N2O

64
Q

What is the NIOSH recommended exposure limit for N2O?

A

25 ppm

65
Q

What is the NIOSH recommended exposure limits for volatile anesthetics?

A

2 ppm

66
Q

The following inhaled agents with their corresponding MAC values. Taken into consideration that MAC is at 1 atm.

Agent A - 2.2(MAC)
Agent B - 1.8 (MAC)
Agent C - 1.2 (MAC)
Agent D - 3.5 (MAC)

Question: Which among the agents is least potent?

A. Agent A
B. Agent C
C. Agent D
D. Agent B
E. Both A and B

A

Agent D is the least potent

The dictum is the less or the lower the MAC the higher the LIPID solubility of an agent, hence MORE POTENT.

Low MAC => High POTENCY

The higher the OIL:GAS partition coefficient, the higher the potency!