Test 3: General Principles of Inhaled Anesthetics

Question 1

The concentration/partial pressure of anesthetic in the lungs is assumed to be the same as in the _____.

Answer 1

Brain

Question 2

Why can you assume that the concentration/partial pressure of anesthetic in the lungs is assumed to be the same as in the brain?

Answer 2

The concentration or partial pressure of anesthetic in the lungs is assumed to be the same as in the brain because the drugs are highly lipid soluble and diffusible, and they quickly and easily reach equilibrium among the highly perfused body compartments (Central Compartment/Vessel Rich Group).

Question 3

What is MAC?

Answer 3

The minimum alveolar concentration required to produce anesthesia (lack of movement) in 50% of the population upon surgical stimulation. It is age dependent in that the required dose peaks at approximately 6 months of age and then decreases with increasing age.

Question 4

What are two factors that may affect uptake early in anesthetic administration?

Answer 4

1) drug solubility in the rubber and plastic machine parts
2) total machine liter flow of the gases chosen

Question 5

What parts of the machine can retain small quantities of anesthetic gases?

Answer 5

The rubber and plastic components of the machine, in addition to the ventilator and absorbent.

Question 6

Why does it matter if parts of the machine retain small quantities of gases?

Answer 6

Theoretically, this could slow administration to the patient at the start of anesthetic delivery.
-The effect on uptake is minimal in actual clinical practice and essentially ceases after approximately 15 minutes of administration.
-Risk occurs when anesthetizing patients with malignant hyperthermia.

Question 7

Which gases are triggering agents for malignant hyperthermia?

Answer 7

All gases except N2O.

Question 8

How can you avoid exposure to anesthetic gases in a MH prone patient?

Answer 8

-Flush Anesthesia Machine with 100% O2 at 10 L/min for at least 20 minutes
-Replace breathing circuits and the carbon dioxide canister
-Inactivate or remove vaporizers
-Ideal: INH free machine

Question 9

How does flow of the gases chosen effect uptake early in anesthetic administration?

Answer 9

-Low liter flows of oxygen and nitrous oxide carrier gas, although economical, deliver the anesthetic more slowly at the start of induction.
-Increasing liter flows for the first few minutes of the anesthetic minimizes this effect without unduly adding to cost. (temporary - don’t forget to turn flows back down!)
-Almost everything is going out to scavenging (kinda wasteful), but can be used for quicker onset of action.

Question 10

What are the symptoms of Malignant Hyperthermia?

Answer 10

Following exposure to one or more triggering agents:
-muscle rigidity
-hyperthermia
-rapid onset of tachycardia and hypercapnia
-hyperkalemia
-metabolic acidosis

Question 11

Inhalation Agents are ___ at room temperature.

Answer 11

Liquids

Question 12

What is Vapor Pressure?

Answer 12

The pressure exerted by a vapor in equilibrium.
-Molecules escape the liquid phase (vaporize) until equilibrium is achieved
-Pressure is created by the vapor molecules bombarding the walls of the container
-Temperature dependent

Question 13

What is LeChatelier’s Principle?

Answer 13

When a system at equilibrium is subjected to change in concentration, temp, volume, or pressure, then the system readjusts itself to partially counteract the effect of the applied change and a new equilibrium is established.
-Inc in temp = inc in Vapor Pressure

Question 14

Which principles are temperature dependent?

Answer 14

-Vapor Pressure
-Blood:Gas Solubility
-Oil:Gas Solubility

Question 15

What is the Blood:Gas Solubility Coefficient indicative of?

Answer 15

The speed of Uptake & Elimination (Onset and recovery)

Question 16

How do you determine the Blood:Gas Solubility Coefficient?

Answer 16

The amount of agent that is blood soluble vs the amount of agent that is lipid soluble.

It reflects the proportion of the anesthetic that will be soluble in the blood, “bind” to blood components, and not readily enter the tissues (blood phase) versus the fraction of the drug that will leave the blood and quickly diffuse into tissues (gas phase).
-Ratio of the INH concentration in blood to concentration in alveoli when the two are in equilibrium (partial pressures are equal)

Question 17

The higher the blood:gas solubility coefficient (the more soluble the drug), the ____ the brain/spinal cord uptake (the rate anesthesia is achieved).

Answer 17

The higher the blood:gas solubility coefficient (the more soluble the drug), the slower the brain/spinal cord uptake (the slower rate anesthesia is achieved).
-Slower induction & Slower emergence

Question 18

Soluble drugs remain in the _____ in greater proportion than less soluble drugs, therefore less of the agent is released to the tissues during the early, rapid-uptake phase of induction. (Less of the drug is released for uptake)

Answer 18

Soluble drugs remain in the blood in greater proportion than less soluble drugs, therefore less of the agent is released to the tissues during the early, rapid-uptake phase of induction. (Less of the drug is released for uptake)

Question 19

How does blood:gas solubility affect CNS uptake?

Answer 19

Increased amount blood soluble = decreased CNS uptake. Takes longer to get to target tissues.
-Slower induction - slower emergence (ex: Isoflurane). Takes longer to set up.

Question 20

What is the Partition Coefficient? (B:G Solubility coefficient)

Answer 20

-Reflects the solubility of the anesthetic
-Distribution ratio describing how the INH agent distributes itself between two phases at equilibrium (Partial pressures are equal in both phases)
-Description of the ability/capacity of the blood phase or tissue phase to accept the anesthetic.

Question 21

How does temperature affect solubility?

Answer 21

As temp of a liquid decreases, the solubility of a gas in that liquid increases.

Question 22

What is the Blood:Gas Solubility coefficient of Isoflurane?

Answer 22

1.4.
Therefore, 1.4 times as much stays in the blood as a nonreleasable (nonusable) fraction for every 1 molecule that enters the tissues (brain) and produces anesthesia.

Question 23

What is the B:G Solubility Coefficient of Desflurane?

Answer 23

0.42.
-Only 0.42 of a molecule stays in the blood for every 1 molecule (greater than twice as much) that enters the brain. Anesthesia is achieved quickly.
-agents with low solubility properties (low blood/gas coefficient) leave the blood quickly and enter the tissues, producing a rapid anesthetic state.

Question 24

What is the Oil:Gas Solubility Coefficient indicative of?

Answer 24

Potency of a drug.
Inc solubility = inc potency
Temperature dependent

Question 25

What does a High Oil:Gas Solubility coefficient reflect?

Answer 25

High LIPID solubility
-Solubility of the agent in fat
-Agent crosses the BB Barrier easily.

Question 26

Which current inhaled anesthetic agent is the most potent?

Answer 26

Isoflurane (O:G = 99)

Question 27

Which current inhaled anesthetic agent is the least potent?

Answer 27

Nitrous Oxide (O:G = 1.4)
This is why you can never achieve a full anesthetic off of Nitrous Oxide.

Question 28

What is the difference between Blood:gas solubility and oil:gas solubility?

Answer 28

-How fast the drug is delivered to the tissues = blood/gas solubility
-How efficiently it can access and affect the sites of action = oil/gas solubility

Question 29

What is the relationship between MAC and potency?

Answer 29

Inverse relationship.
Inc MAC = dec Potency.

Question 30

What is MAC? (Blue Box)

Answer 30

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

Question 31

What do you have to assume to compare agents using mac?

Answer 31

That alveolar concentration = brain concentration.

Question 32

At approximately ____ MAC, skeletal muscle movement is prevented in >95% of patients.

Answer 32

At approximately 1.3 MAC, skeletal muscle movement is prevented in >95% of patients.

Question 33

T/F: MAC values are synergistic.

Answer 33

False.
MAC Values are additive, not synergistic.
-Can only use 1 volatile at a time
-But could add Nitrous Oxide to a Volatile.
-Ex: 0.7 MAC of Sevo + 0.3 MAC of N2O = 1 MAC
-Can decrease concentrations of volatiles by adding Nitrous.

Question 34

It takes generally ____ - ____ minutes for the alveoli and the brain to equilibrate at normal FGF rates (2-4).

Answer 34

10-15 minutes

Question 35

You typically lose awareness at ____ MAC.

Answer 35

0.7 MAC

Question 36

What is the MAC of Halothane?

Answer 36

0.76%

Question 37

What is the MAC of Isoflurane?

Answer 37

1.2%

Question 38

What is the MAC of Sevoflurane?

Answer 38

2%

Question 39

What is the MAC of Desflurane?

Answer 39

6%

Question 40

What is MAC-Awake?

Answer 40

The minimum alveolar concentration of anesthetic at which 50% of patients will respond to the command “open your eyes”.
-Approx. 1/3 - 1/2 MAC
-Have NOT taken away awareness (normally lost around 0.7 MAC)
-Do have amnesia or loss of recall. Sedation, dream like state.
-Patient is able to maintain airway.

Question 41

What is MAC-Bar?

Answer 41

The MAC necessary to block the adrenergic response (changes in plasma norepinephrine concentration, heart rate [HR], and mean arterial pressure [MAP]) to skin incision.
-Greater anesthetic depth than prevention of skeletal muscle mvmt
-Blocks the ANS.
-Approx. 1.5 - 2.5 MAC
-Use sparingly, will be fighting VS

Question 42

What are the 5 Principles of General Anesthesia?

Answer 42

-Amnesia
-Analgesia
-Blunt Autonomic responses
-Skeletal Muscle immobility
-Unconsciousness/loss of recall

Question 43

T/F: Anesthetic gases all provide analgesia.

Answer 43

False; Most don’t except Nitrous Oxide gives some.
-Have to have a balanced technique and add in analgesia somehow (LA, opioids, NSAIDs, etc.)

Question 44

What are factors that decrease MAC?

Answer 44

-Hypothermia
-Hypotension (BP < 40 mmHg)
-Hypoxemia (PaO2 < 38 mmHg)
-Hyponatremia
-Hypermagnesemia
-Anemia
-Use of Alpha 2 Agonists, Lithium, Lidocaine, Benzos, Barbs, Narcs, or Opioids
-Sepsis
-Acute ETOH
-Pregnancy
-Neonates
-Elderly

Question 45

What drugs would decrease MAC?

Answer 45

Alpha 2 Agonists, Lithium, Lidocaine, Benzos, Barbs, Narcs, or Opioids

Question 46

MAC decreases ___% per decade after age 40.

Answer 46

Mac decreases 6% per decade after age 40.

Question 47

What factors increase MAC?

Answer 47

-Hyperthermia
-Hypernatremia
-Hyperthyroidism
-Drug induced increases in catecholamine levels (MAOIs, cocaine)
-Infants
-Chronic ETOH
-Red headed females

Question 48

Why do red-headed females have an Increased MAC?

Answer 48

-19% increase in MAC compared to dark haired
-Mutations of the melanocyte stimulating hormone receptor allele

Question 49

What factors do NOT affect MAC?

Answer 49

-Gender
-Duration of anesthetic
-Muscle relaxants
-Hyperkalemia
-Hypokalemia
-Hypercapnia
-Hypocapnia
-Metabolic Alkalosis
-Hct > 10
-HTN

Question 50

How do Volatile Anesthetics (Halothane, Iso, Des, Sevo) differ from Gaseous Anesthetics (N2O, Xenon)?

Answer 50

Volatile anesthetics (halothane, isoflurane, desflurane, sevoflurane) have low vapor pressures and relatively high boiling points so that they are liquids at room temperature (20°C) and sea-level ambient pressure. In contrast, gaseous anesthetics (nitrous oxide, xenon) have high vapor pressures and low boiling points so that they are in gas form at room temperature.

Question 51

What is the definition of MAC (textbook definition)?

Answer 51

The MAC required to achieve surgical anesthesia (immobility) in 50% of patients exposed to a noxious stimulus.

Question 52

What is the definition of MAC Awake (textbook definition)?

Answer 52

The MAC suppressing appropriate response to commands in 50% of patients; memory is usually lost at MAC awake; approximately 0.3–0.5 MAC.

Question 53

What is the definition of MAC Block Adrenergic Responses (BAR) - (textbook definition)?

Answer 53

The alveolar concentration of anesthetic that blunts the autonomic response to noxious stimuli; approximately 1.6–2.0 MAC.