Pharmacology for Anaesthesia and Intensive Care

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8 General anaesthetic agents

compounds have also been used, however poor solubility (pregnalolone) together
with an association with anaphylactic reactions (due to cremophor EL – used to
solubalize the steroid althesin) has led to their demise.

The ideal intravenous anaesthetic agent
Werean ideal intravenous anaesthetic agent to exist, it should have the following
properties:
Rapid onset (mainly unionized at physiological pH)
High lipid solubility
Rapid recovery, no accumulation during prolonged infusion
Analgesic at sub-anaesthetic concentrations
Minimal cardiovascular and respiratory depression
Noemetic effects
Nopain on injection
Noexcitation or emergence phenomena
Nointeraction with other agents
Safe following inadvertent intra-arterial injection
Notoxic effects
Nohistamine release
Nohypersensitivity reactions
Water-soluble formulation
Long shelf-life at room temperature

The currently used agents are discussed below under the following headings:
Barbiturates (thiopental, methohexitone)
Non-barbiturates (propofol, ketamine, etomidate)

Barbiturates
All barbiturates are derived from barbituric acid, which is the condensation product
of urea and malonic acid (Figure8.3). When oxygen is exchanged for sulphur at the
C2 position, oxybarbiturates become thiobarbiturates.
Barbiturates are not readily soluble in water at neutral pH. Their solubility depends
on transformation from the keto to the enol form (tautomerism), which occurs most
Urea

NH 2

NH 2

N

N

H

H

O C CH 2 2 CH 2 2H 2 O

HO

HO

O

C

O C

C

OO

O

C

C

Malonic acid Barbituric acid + water

—— ——


—— ——


—— ——


—— ——











6 —


5
3 4

1

+

Figure 8.3.Formation of barbituric acid.
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