Inhalational anesthetics Flashcards Preview

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Flashcards in Inhalational anesthetics Deck (23)
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1
Q

Nitrous oxide characteristics

A

Fast acting, non irritating

Analgesic, but not Muscle relaxing

Minimal/no CNS or Respiratory depression

Not irritating, and very cheap.
Lowers the MAC of other inhalation anesthetics, used as an adjunct for induction and maintenance.

2
Q

Nitrous oxide kinetics

A

Very fast acting, Partition coefficient 0.47.
Very high MAC 105%

No metabolism excreted unchanged

3
Q

Nitrous oxide SEs

A

Diffusional hypoxia - MAC is so high that it can lower alveolar oxygen and cause hypoxia

Increased pressure of abdomen, thorax, inner ear (from diffuse into these cavities and high MAC)

Spontaneous Aboriton

4
Q

Halothane kinetics

What is unique about halothanes structure

A

MAC 0.8%

Part coeff 2.3

Halothane is NOT an ether, like all the rest of the inhalational anesthetics ending in ‘-ane’

5
Q

Halothane uses and Pros

A

Cheap, potent, widely used outside US

Causes muscle rlaxation
Non-irritating

6
Q

Halothane SEs and Cons

A

Cumulative hepatotoxicity
DELAYED from between 2 days and 1 month after surgery
-Potential severe acute necrotic hepatitis

Simultaneous Cardiac suppression AND sensitization to catecholamines
–Can cause arrythmias

Increases cerebral flow and intracranial pressure

Malignant hyperthermia.

7
Q

Isofluorane Kinetics

A

MAC 1.4

pc: 1.4

8
Q

What is the partition coefficent equation

A

Blood concentration / Gas concentration

at equal partial pressures.

9
Q

Isofluorane uses and pros

A

Only for maintenance, causes airway irritation

Cheap, still widely used.

Lowers ICP much less than the other agents.

10
Q

Isofulorance cons

A

Airway irritation

Minor cardiac suppression and sensitization, but still has potential for arrythmias

Minor resp suppression

Minor increase in ICP

11
Q

Enflurane kinetics

uses

A

MAC 1.7
Part 1.8

Non irritating and faster than halothane.

Used for rapid induction.

12
Q

Enflurane SEs

A

Kidney toxicity

Can cause seizures

Cardiac and Respiratory depression

Maligfnant hypertension

Coronary steal syn.

13
Q

Methoxyfluorane kinetics and uses

A

MAC 0.16
Part. 12%

Slow but potent. Used for maintenance

14
Q

Methoxyfluorane SEs

A

Just kidney toxicity.

15
Q

Sevoflurane kinetics

A

MAC 2.0

Part 0.69

16
Q

Sevoflurane pros and uses

A

No liver damage
No kidney damage
No respiratory irritation AND faster induction that halothane or enfluorane

Is now the most widely used inhalational agent.

17
Q

Cons

A

Cardiac depression, decreases MAP and CO

Potential for nephrotoxic fluoride metabolite if low carrier gas flow is used.
Need to have flow rate high enough to exhale the metabolite before toxicity builds up.

18
Q

Which agents can cause malignant hyperthermia

A

Halothane
Enflurane
Succinylcholine

19
Q

Symptoms of malignant hyperthermia

A

Fever
Muscle rigidity
Tachycardia

Can lead to Rhabdomyolysis

  • Muscle ATP depletion and cell death
  • Hyperkalemia
  • Myoglobeniemia
  • Elevated Creatinine
  • Potential kidney damage
20
Q

Mechanism of the inhalational anesthetics

A

Exact mechanism unclear: Increases neuronal threshold for firing
Sedation by actions on the thalamus
Amnesia by actions in the hippocampus

Lipid theory - older “Overton-Meyer theory”; drug must be lipophilic to have effect + lipophilicity is directly correlated to effect; modifies neuronal cell membrane → non-specific interactions causing receptor/ion channel function changes

Protein theory - specific interaction of anesthetics with certain ion channels/Rs; stimulate GABAA/K+ channels and inhibit NMDA/nAChR

Potentiation of glycine and GABA signaling,
particularly increased GABA-A receptor activity.

21
Q

What is the MAC

A

MAC: “minimal alveolar concentration”;
% of drug in the gas that is needed to produce surgical anesthesia in 50% of patients; inversely proportional to potency (1/MAC)

22
Q

What are the stages of anesthesia/narcosis

A

Analgesia - loss of pain sensation + eventually consciousness

Excitation - cortical neurons sensitive to anesthetics → cortical neurons inhibited → subcortical neurons disinhibited; patient may wake up and run away

Tolerance / Surgical Anesthesia - ↓ pain response and immobility; 4 subphases, phase 2 best for surgery

Asphyxia

23
Q

Types of Anesthesia:

A

“Balanced Anesthesia” - uses mostly IV drugs to induce anesthesia + accelerate the excitation phase with inhaled anesthetics to maintain anesthesia
Total Inhalation Anesthesia - mostly used in children
Total IV Anesthesia (TIVA) - usually used in smaller interventions

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