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8 General anaesthetic agentsTable 8.6.Metabolism of inhaled anaesthetic agents.Agent Percentage metabolized Metabolites
N 2 O <0.01 (N 2 )
Halothane 20 Trifluoroacetic acid, Cl−,Br−
Sevoflurane 3.5 Inorganic and organic fluorides
Compound A in the presence of soda lime and heat
(Compound B, C, D and E)
Enflurane 2 Inorganic and organic fluorides
Isoflurane 0.2 Trifluroacetic acid and F−
Desflurane 0.02 Trifluroacetic acidAlthough it might be expected that agents with a high blood:gas partition coef-
ficient (i.e. high solubility) would have a rapid onset, this is not the case because
these agents only exert a low partial pressure in blood, even when present in large
amounts. It is the partial pressure of the agent in the blood and subsequently the
brain that gives rise to anaesthesia and not the total amount present. Agents with a
low blood:gas partition coefficient exert a high partial pressure and will, therefore,
produce a more rapid onset and offset of action. Although a low blood:gas partition
coefficient is important, MAC and respiratory irritability can also alter the speed of
induction.Concentration and second gas effect
These are described in the section on nitrous oxide.Metabolism
Hepatic cytochrome P450 metabolizes the C-(halogen) bond to release halogen ions
(F−,Cl−Br−), which may cause hepatic or renal damage. The C–F bond is a stable
one and is only minimally metabolized unlike C–Cl, C–Br and C–I which become
progressively easy to metabolize (Table8.6).Pharmacology of inhaled anaesthetic agents
Nitrous oxide
Nitrous oxide (N 2 O) is used widely alongside the volatile agents and in combination
with oxygen (O 2 )asentonox. Apart from a high MAC, it has favourable physical
properties. However, during even relatively short exposure it interferes with DNA
synthesis and increasing concern over this and other aspects of N 2 Omay limit its
future use.Manufacture
Nitrous oxide is manufactured by heating ammonium nitrate to 250◦C.
NH 4 NO 3 →N 2 O+2H 2 O