Inhaled Anesthetics Part 1 (Exam III)

Question 1

What is Boyle’s Law?
What application of this was mentioned in class?

Answer 1

• Pressure and Volume of gas are inversely proportional
• Bellows contract thus increasing circuit pressure → gasses flow from high pressure circuit to low pressure lungs.

Question 2

What is Fick’s Diffusion Law (as is pertinent to inhaled anesthetics)?

Answer 2

Once air molecules enter alveoli, they move around randomly and begin to diffuse into the pulmonary capillaries.

Question 3

What factors is diffusion dependent on?

Answer 3

• Partial pressure gradient of the gas
• Solubility of the gas
• Thickness of the membrane

Question 4

What is Graham’s Law of Effusion?

Answer 4

Process by which molecules diffuse through pores and channels without colliding.

Question 5

Smaller molecules effuse faster dependent on ________.

Answer 5

solubility

Question 6

Which diffuses faster CO₂ or O₂ ? Why?
Which would you expect to diffuse faster?

Answer 6

CO₂ is 20x more diffusible due to solubility despite O₂ weighing less.

Question 7

When P_A equals ________, then the inhaled gas concentration equals the exhaled gas concentration and the patient is unconscious.

Answer 7

P_Brain

Question 8

If P_Brain is greater than P_A then what we expect to be occurring? Why?

Answer 8

The patient should be waking up. This means the exhaled gas is greater than the inhaled gas and the concentration gradient is moving towards the alveoli away from the brain.

Question 9

What does the following equation mean?

P_A ⇌ P_a ⇌ P_Brain

Answer 9

This is comparing the partial pressure of volatile gas in the alveoli to the arterial blood to the brain.

Question 10

What input factors affect the diffusion of volatile gas from the anesthetic machine to the alveoli?

Answer 10

• Inspired partial pressure
• Alveolar ventilation
• Anesthetic system re-breathing
• FRC

Question 11

Which factors affect the uptake of anesthetic gas from the alveoli to the blood?

Answer 11

• Blood:gas partition coefficient
• Cardiac output
• A-V pressure difference

Question 12

How would a low cardiac output affect the diffusion of anesthetic gas from the alveoli to the pulmonary capillary blood?

Answer 12

↓CO = more time to diffuse across the alveolus

Question 13

What factors affect the uptake of anesthetic gas from the arterial blood to the brain?

Answer 13

• Blood:Brain partition coefficient
• Cerebral blood flow
• A-V partial pressure difference.

Question 14

Gas goes from a ____ gradient to a ____ gradient in order to reach a steady state.

Answer 14

high; low

Question 15

What does P_I mean?

Answer 15

Partial pressure of inspired volatile gas.

Needs verification.

Question 16

How can gas be “forced” to the brain quicker?

Answer 16

By increasing P_I. This creates a higher gradient for the gas to flow from P_A → P_a → P_Brain

Question 17

What does F_E/F_I mean?

Answer 17

F_E/F_I is the ratio of expired gas to inspired gas.

Question 18

What concept is this chart conveying?

Answer 18

Concentration Effect: essentially, ↑concentration inspired gas = ↑P_A = increased rate of diffusion

Question 19

What is over-pressurization?

Answer 19

• A large increase in P_I so as to force gas from P_A → P_a → P_Brain much faster.

Question 20

What would sustained delivery of over-pressurization result in?

Answer 20

Overdose

Question 21

What gas does the second gas effect always apply to?

Answer 21

N₂O (nitrous oxide)

Question 22

What is the second gas effect as it relates to anesthesia?

Answer 22

• Uptake of N₂O accelerates a concurrently administered volatile gas.

Question 23

How does N₂O create the second gas effect?

Answer 23

N₂O hyper-concentrates volatiles to create a high concentration gradient by being super-diffusible.

Question 24

Describe what is being depicted on the graph below.

Answer 24

• This is the concentrating effect of N₂O on halothane.

Question 25

What cases would nitrous oxide not be utilized in?
Why?

Answer 25

• Cases with an air-filled cavity
• N₂O will diffuse into the cavity and fill it. (extent of damage dependent on the compliance of the cavity).

Question 26

What specific cases are bad for the usage of N₂O?

Answer 26

• Ear & eye
• Open belly
• Lung

Question 27

What factors affect the degree of pressure N₂O would exert on a cavity that it filled?

Answer 27

• Partial pressure of N₂O
• Blood flow to the cavity
• Duration of N₂O administration

Question 28

What would nitrous inhalation in a patient with pneumothorax do?

Answer 28

Expand the pneumothorax

Question 29

What could N₂O on an intraocular case do?

Answer 29

• Massively increase retinal artery pressure and cause permanent vision loss.

Question 30

Decreased ______ from hyperventilation will decrease cerebral blood flow and limit induction speed.

Answer 30

P_aCO₂

Question 31

What is the definition of solubility for anesthetic gasses?

Answer 31

Ratio of how inhaled gas distribution between two compartments at equilibrium (when partial pressures are equal).

Question 32

If the temperature of blood increases then solubility ______.

Answer 32

decreases

Question 33

What does a low blood solubility mean for induction?

Answer 33

Less gas has to be dissolved = P_A → P_a is rapid = rapid induction.

Question 34

What does a high blood solubility mean for induction?

Answer 34

More gas has to be dissolved = P_A → P_a is slow = slow induction.

Question 35

What is being described in the graph below?

Answer 35

How quickly the inspired concentration of a gas equals the alveolar concentration of said gas.

Question 36

What volatile gasses are intermediately soluble?

Answer 36

• Halothane
• Enflurane
• Isoflurane

Question 37

What is the blood:gas partition coefficient of halothane?

Answer 37

Halothane = 2.54

Question 38

What is the blood:gas partition coefficient of enflurane?

Answer 38

Enflurane = 1.90

Question 39

What is the blood:gas partition coefficient of Isoflurane?

Answer 39

Isoflurane = 1.46

Question 40

What volatile gasses are poorly soluble?

Answer 40

• N₂O
• Desflurane
• Sevoflurane

Question 41

What is the blood:gas partition coefficient of N₂O?

Answer 41

Nitrous = 0.46

Question 42

What is the blood:gas partition coefficient of Desflurane?

Answer 42

Desflurane = 0.42

Question 43

What is the blood:gas partition coefficient of Sevoflurane?

Answer 43

Sevoflurane = 0.69

Question 44

What are the blood:gas solubilities of all the gasses we have to know for anesthesia pharm?

Answer 44

Question 45

What occurs (in regards to our partial pressure gradients) during emergence from anesthesia?

Answer 45

Concentration gradient reverses.

P_A ← P_a ← P_Brain

Question 46

What helps decrease concentration of volatile anesthetic in P_A and P_Brain on emergence?

Answer 46

Continued uptake by Muscle/Fat if not already at equilibrium.

Question 47

What color coding does isoflurane have?

Answer 47

Purple

Question 48

What color coding does sevoflurane have?

Answer 48

Yellow

Question 49

What color coding does desflurane have?

Answer 49

Blue

Question 50

Which anesthetic would you anticipate as having the quickest recovery?
Slowest?

Answer 50

Fastest recovery = desflurane
Slowest recovery = halothane

Question 51

What is 1 MAC?

Answer 51

Concentration at 1atm that prevents skeletal muscle movement in response to surgical stimulation in 50% of patients.

Question 52

What is 1.3 MAC?

Answer 52

Concentration at 1atm that prevents skeletal muscle movement in response to surgical stimulation in 99% of patients.

Question 53

What would ED₉₉ be equivalent to in regards to MAC?

Answer 53

ED₉₉ ≈ 1.3 MAC

Question 54

What is MAC_awake?

Answer 54

0.3 - 0.5 MAC: partial awakeness and responsiveness.

Question 55

What is MAC_BAR?

Answer 55

1.7 - 2.0 MAC: Blunts autonomic responses. No SNS response at all, essentially an overdose.

Question 56

What patient are standardized MAC values based on?

Answer 56

30 - 55 y/o at 37°C at 1atm

Question 57

What is the MAC of N₂O?
What does this mean?

Answer 57

N₂O MAC = 104%. Can’t be used as sole anesthetic agent.

Question 58

What is the MAC of Halothane?

Answer 58

0.75%

Question 59

What is the MAC of Enflurane?

Answer 59

1.63%

Question 60

What is the MAC of Isoflurane?

Answer 60

1.17%

Question 61

What is the MAC of Desflurane?

Answer 61

6.6

Question 62

What is the MAC of Sevoflurane?

Answer 62

1.8%

Question 63

What are the two biggest factors that affect MAC?

Answer 63

• Body temperature
• Age

Question 64

At what age does MAC need peak?

Answer 64

1 y/o

Question 65

How much does MAC need decrease as one gets older?

Answer 65

6% per decade.

Question 66

What factors will increase MAC?

Answer 66

• Hyperthermia
• Excess Pheomelanin (redheads)
• Drug-induced ↑ catecholamines
• Hypernatremia

Question 67

What factors will decrease MAC?

Extensive list

Answer 67

Essentially anything that slows metabolism

• Hypothermia
• Pre-op meds
• Intra-op opioids
• α-2 agonists (Dex, clonidine)
• Acute EtOH
• Pregnancy
• Early post-partum
• Lidocaine
• PaO₂ < 38 mmHg
• Mean BP < 40mmHg
• Cardiac Bypass
• Hyponatremia

Question 68

How does loss of consciousness occur with the use of volatile anesthetics?

Answer 68

• Potentiation of GABA_A in the brain.
• Potentiation of glycine in the brainstem.

Question 69

Which of these two liquids in enclosed containers has the higher vapor pressure?

Answer 69

Liquid B: more evaporative.

Vapor pressure is the pressure at which vapor and liquid are at equilibirum.

Question 70

What is Dalton’s law?

Answer 70

• The sum of all partial pressures will equal the total pressure.
• P_total = P_gas1 + P_gas2…

Question 71

What is Henry’s Law?

Answer 71

The amount of dissolved gas in a liquid is proportional to its partial pressure above the liquid.

Question 72

What does Henry’s law mean in practice?

Answer 72

Henry’s Law is pertinent to overpressurization.

If partial pressure of a volatile doubles, then double the molecules will interact with P_a from the alveoli.

Question 73

Heat will _____ vapor pressure.

Answer 73

increase

Question 74

Cold temperatures will _____ vapor pressure.

Answer 74

decrease.

Question 75

A lower vapor pressure gas is inherently more volatile. T/F ?

Answer 75

False. ↑vapor pressure = ↑volatility

Question 76

What is the vapor pressure of halothane?

Answer 76

243

Question 77

What is the vapor pressure of Enflurane?

Answer 77

175

Question 78

What is the vapor pressure of Isoflurane?

Answer 78

238 torr (mmHg)

Question 79

What is the vapor pressure of Desflurane?

Answer 79

669 torr

Question 80

What is the vapor pressure of Sevoflurane?

Answer 80

157 torr (or mmHg)

Question 81

What is the variable bypass on the anesthetic machine?

Answer 81

A way to dilute/concentrate the amount of anesthetic gas reaching the patient.

Question 82

What is the splitting ratio?

Answer 82

How much gas is being sent into the vaporizer

Question 83

What is the purpose of the wicks found in the vaporizing chamber below?

Answer 83

The wicks increase gas-liquid interface and improve vaporization.