Abstract
1 . Extracellular and intracellular potentials have been recorded from the isolated spinal cord of the frog during depression of synaptic transmission by volatile and barbiturate general anaesthetic agents. 2 . Volatile agents did not impair conduction in presynaptic terminals in concentrations which completely blocked synaptic transmission. 3 . Methohexitone consistently impaired conduction in presynaptic terminals long before transmission through polysynaptic pathways was blocked. 4 . Volatile agents depressed the excitability of the motoneurone membrane, as evidenced by impaired antidromic invasion, reduced excitability to direct stimulation, depression of the synaptic potential and elevation of firing threshold. It is concluded that these actions are responsible for the depressant effect of volatile agents on spinal reflexes. 5 . Methohexitone produced an increase in the excitability of the motoneurone membrane, as evidenced by enhanced antidromic invasion, increased excitability to direct stimulation and potentiation of short latency responses. Despite this excitatory action, the polysynaptic pathways through the cord were depressed by an action of the drug on conduction in presynaptic terminals. 6 . It is suggested that the sensitivity of the motoneurone membrane to volatile agents may contribute to the good muscle relaxant properties of these drugs in clinical use.