The rapid application of solutions containing the volatile anaesthetics isoflurane or sevoflurane induced inward currents in human embryonic kidney (HEK293) cells carrying rat recombinant α 1 β 2 γ 2 L GABA A receptor assemblies. The responses evoked by the anaesthetics applied via a fast delivery system were recorded using the patch-clamp technique in the whole-cell mode. The anaesthetics induced a fast inward current which was followed by a prominent tail current upon the rapid withdrawal of the agent. These currents were simulated using a kinetic scheme embodying two agonist-like binding steps required for receptor activation, and one binding step by which the anaesthetic induces an open-channel block. According to this model of a biphasic receptor modulation, the open-channel block delays the ion flux through the ligand-gated receptors and, thus, prolongs the overall duration of the current response. Open-channel blocks might also be operative in other ligand-gated ion channels to modulate synaptic strength.