about
Distinct actions of etomidate and propofol at beta3-containing gamma-aminobutyric acid type A receptorsAnaesthetic drugs: linking molecular actions to clinical effectsOpposing actions of sevoflurane on GABAergic and glycinergic synaptic inhibition in the spinal ventral hornIdentification and characterization of anesthetic targets by mouse molecular genetics approaches.Inhibitory ligand-gated ion channels as substrates for general anesthetic actions.Enhancing the function of alpha5-subunit-containing GABAA receptors promotes action potential firing of neocortical neurons during up-states.Organotypic cultures as tools for testing neuroactive drugs - link between in-vitro and in-vivo experiments.Interactions between atropine and etomidate in cortical and spinal networks during cholinergic crisis.Diazepam decreases action potential firing of neocortical neurons via two distinct mechanisms.Atropine increases sevoflurane potency in cortical but not spinal networks during cholinergic overstimulation.General anesthetic actions in vivo strongly attenuated by a point mutation in the GABA(A) receptor beta3 subunit.[Is deep anesthesia dangerous?].Sevoflurane-induced loss of consciousness is paralleled by a prominent modification of neural activity during cortical down-states.Opposing actions of etomidate on cortical theta oscillations are mediated by different gamma-aminobutyric acid type A receptor subtypes.Brain electrical activity obeys Benford's law.Synergistic Modulation of γ-Aminobutyric Acid Type A Receptor-Mediated Synaptic Inhibition in Cortical Networks by Allopregnanolone and Propofol.Cholinergic modulation of sevoflurane potency in cortical and spinal networks in vitro.Anaesthetic potency of diazepam is resistant to cholinergic overstimulation.Effects of cholinergic overstimulation on isoflurane potency and efficacy in cortical and spinal networks.Dual actions of enflurane on postsynaptic currents abolished by the gamma-aminobutyric acid type A receptor beta3(N265M) point mutation.Effects of succinylcholine in an organotypic spinal cord-skeletal muscle coculture of embryonic mice.[The GABA(A) receptor family: possibilities for the development of better anesthetics]Long-term evaluation of organophosphate toxicity and antidotal therapy in co-cultures of spinal cord and muscle tissue[The Scientific Working Group, "Young Scientists" of the German Society for Anesthesiology and Intensive Care Medicine]Spinal cord--skeletal muscle cocultures detect muscle-relaxant action of botulinum neurotoxin ADiazepam and ethanol differently modulate neuronal activity in organotypic cortical cultures
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description
hulumtues
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researcher
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wetenschapper
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հետազոտող
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name
Berthold Drexler
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Berthold Drexler
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Berthold Drexler
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Berthold Drexler
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Berthold Drexler
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type
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Berthold Drexler
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Berthold Drexler
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Berthold Drexler
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Berthold Drexler
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Berthold Drexler
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prefLabel
Berthold Drexler
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Berthold Drexler
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Berthold Drexler
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Berthold Drexler
@nl
Berthold Drexler
@sl
P106
P21
P31
P496
0000-0001-7202-1511