A perfect storm: consequences of excess inhibitory neurotransmission after anaesthesia and surgery.

Perioperative neurocognitive disorders may arise from three complementary mechanisms that, together, cause excessive inhibitory neurotransmission. Sustained accumulation of type A γ-aminobutyric acid (GABA_A) receptors on the surface of neurones, aberrant release of GABA from astrocytes, and increased production of hydrogen peroxide (H₂O₂) can all enhance the amplitude of tonic inhibitory conductance, and in concert could disrupt network synchrony and impair cognition after anaesthesia and surgery. The report by Wan and colleagues identifies a key pathway by which sevoflurane activates calcium (Ca²⁺)/calmodulin-dependent protein kinase II (CaMKII), which impairs GABA_A receptor internalisation and thereby promotes receptor accumulation on the neuronal surface. The accumulation of GABA_A receptors is expected to interact synergistically with increased concentrations of GABA and H₂O₂ to drive excess inhibitory neurotransmission. Targeting even one of these three factors might be sufficient to preserve cognition after anaesthesia and surgery.

VIVO Weill Cornell Medical College