Selective actions of volatile general anaesthetics at molecular and cellular levels.
about
Calcium dynamics in cardiac myocytes as a target of dichloromethane cardiotoxicity.General anaesthetic actions on ligand-gated ion channelsThe actions of ether, alcohol and alkane general anaesthetics on GABAA and glycine receptors and the effects of TM2 and TM3 mutationsDynamic causal models and physiological inference: a validation study using isoflurane anaesthesia in rodentsDifferential modulatory actions of the volatile convulsant flurothyl and its anesthetic isomer at inhibitory ligand-gated ion channels.Phospholipid complexation of general anesthetics in fluid bilayers.Can the stereoselective effects of the anesthetic isoflurane be accounted for by lipid solubility?Distinctive recruitment of endogenous sleep-promoting neurons by volatile anesthetics and a nonimmobilizer.Volatile anesthetics inhibit sodium channels without altering bulk lipid bilayer properties.Hydrocarbon molar water solubility predicts NMDA vs. GABAA receptor modulation.Concentration-dependent isoflurane effects on depolarization-evoked glutamate and GABA outflows from mouse brain slicesA gain-of-function mutation in adenylate cyclase confers isoflurane resistance in Caenorhabditis elegansCovalent modification of a volatile anesthetic regulatory site activates TASK-3 (KCNK9) tandem-pore potassium channels.Genetic differences affecting the potency of stereoisomers of halothane.Isoflurane enhances both fast and slow synaptic inhibition in the hippocampus at amnestic concentrations.Effects of inhalational general anaesthetics on native glycine receptors in rat medullary neurones and recombinant glycine receptors in Xenopus oocytes.Stereoselective and non-stereoselective actions of isoflurane on the GABAA receptor.Inhibition of human alpha4beta2 neuronal nicotinic acetylcholine receptors by volatile aromatic anesthetics depends on drug hydrophobicity.A neomorphic syntaxin mutation blocks volatile-anesthetic action in Caenorhabditis elegans.Isoflurane inhibits the tetrodotoxin-resistant voltage-gated sodium channel Nav1.8.Effects of γ-Aminobutyric Acid Type A Receptor Modulation by Flumazenil on Emergence from General AnesthesiaChirality and anaesthetic drugs: A review and an update.Pentobarbital inhibition of human recombinant alpha1A P/Q-type voltage-gated calcium channels involves slow, open channel block.Cortico-centric effects of general anesthetics on cerebrocortical evoked potentials.Clinical concentrations of chemically diverse general anesthetics minimally affect lipid bilayer properties.Actions of general anaesthetics on a neuronal nicotinic acetylcholine receptor in isolated identified neurones of Lymnaea stagnalis.Pre- and postsynaptic volatile anaesthetic actions on glycinergic transmission to spinal cord motor neurons.Prolonged attenuation of acetylcholine-induced phosphorylation of extracellular signal-regulated kinase 1/2 following sevoflurane exposure.Activation and modulation of recombinant glycine and GABAA receptors by 4-halogenated analogues of propofol.Actions of general anaesthetics on 5-HT3 receptors in N1E-115 neuroblastoma cells.Brain activity modeling in general anesthesia: enhancing local mean-field models using a slow adaptive firing rate.Structure-specific membrane-fluidizing effect of propofol.Determinants of the anesthetic sensitivity of neuronal nicotinic acetylcholine receptors.Isoflurane depresses glutamate release by reducing neuronal excitability at the Drosophila neuromuscular junction.Propofol and Sevoflurane Differentially Modulate Cortical Depolarization following Electric Stimulation of the Ventrobasal Thalamus.Molecular interactions between general anesthetics and the 5HT2B receptor.Anesthetic action of volatile anesthetics by using Paramecium as a model.Effects of the volatile anesthetic enflurane on spontaneous discharge rate and GABA(A)-mediated inhibition of Purkinje cells in rat cerebellar slices.Halothane reduces the early lipopolysaccharide-induced lung inflammation in mechanically ventilated rats.The visually-induced jump response of Drosophila melanogaster is sensitive to volatile anesthetics.
P2860
Q23919048-31581803-BC02-406E-BCB4-CCD6553B9779Q24595524-6936719B-B185-47B5-A592-7CB9207AEC4FQ28343937-A9021D54-2DAF-4326-BDC2-1587405B1F48Q28476412-E0B3156C-FD15-4D9F-911C-D0B7EBEEEC8BQ33756800-94F33136-3F8D-4AB1-A26E-1E78DCE71FA2Q33798943-91FDC16D-17DA-473F-8CA8-2B7FDF97D373Q34115463-3D8060CA-D051-4238-801F-935B450DF57BQ34389010-08E80541-6FC0-457A-9982-1DA42A670D55Q34566656-8606A28E-FB41-4640-9B20-6E554BC30FEDQ34587545-8948E053-F58A-4814-B189-61BCD17D8B04Q35028813-089F20B9-F2F5-49FA-8D63-EB6C56F062E3Q35581393-9EA0F235-2BEF-410C-8E78-F291B5C8C56AQ35776793-DC89433B-69C0-4E7B-989B-546FEA85654EQ35830599-413C5043-5FEB-45E6-81F2-D73DD047867AQ35851064-0843FEF6-33F5-43B6-8660-9C8FA20FC668Q35873846-9BBF7DB9-9AB9-4B0B-A4E5-0E23CEE8757BQ35874601-03676CBF-B42E-4DFB-B233-1922518DADEAQ36501070-ACFD3FB2-DEB4-466C-BC28-9F81D80B3AF6Q37189132-A79DFAEC-5C6B-4AFB-86CE-2EADAB457464Q37372705-54A1A687-7968-4257-B202-CCF946462811Q37667044-0DAEC37B-F4D7-4658-8FB0-7168D0A9D098Q37973723-6B065562-A8B2-441F-9388-F8141B440A08Q39663915-77642185-AA5E-44C4-841B-2AD4C16EE6E4Q41465538-E05C2EDF-ACAC-4E3A-8F33-031E9C685A7EQ41710142-F15EAD40-EB33-493F-A822-FB6FB1DAEAB3Q41911862-93D1C957-0AAD-44A1-82A6-CDA27005A9ADQ42107423-F38E9E34-409B-4753-9280-ED588CC8AAA0Q42501324-6BBC168E-EEA2-4659-80EF-102F46B3BEBBQ42682287-B3FFD056-EC1B-4028-81C4-8605C882ABDFQ42705498-1C9BE998-8A70-4377-832C-A292590C7064Q42765029-C6D4327C-8E2C-4931-9AAF-C35D7CE403C7Q43544002-D6FDF0DD-29CB-40C6-BF63-689FF4FE90B8Q43821682-900391D1-F4E4-4079-B5F7-68EB64CF8C7CQ44915365-B7E52F85-DF9A-40DA-BE5B-56929675508AQ47871468-236DE12B-8881-4650-9C4F-A920A544BAF1Q47933284-5C90C33A-0CF5-490F-A23C-D5823D48B209Q48155572-0ED0A1B6-CB5E-4F56-AE5C-5BE49424E021Q48716810-30BA3A29-8BAD-4479-B2A9-EDC5CEAAF158Q51371038-9A3AB11B-4EDF-4A04-8AD5-91C3C6D356A7Q51420385-BAA3B3FF-5305-4DE4-ABDC-041D704A7AE8
P2860
Selective actions of volatile general anaesthetics at molecular and cellular levels.
description
1993 nî lūn-bûn
@nan
1993年の論文
@ja
1993年学术文章
@wuu
1993年学术文章
@zh-cn
1993年学术文章
@zh-hans
1993年学术文章
@zh-my
1993年学术文章
@zh-sg
1993年學術文章
@yue
1993年學術文章
@zh
1993年學術文章
@zh-hant
name
Selective actions of volatile general anaesthetics at molecular and cellular levels.
@en
type
label
Selective actions of volatile general anaesthetics at molecular and cellular levels.
@en
prefLabel
Selective actions of volatile general anaesthetics at molecular and cellular levels.
@en
P356
P1476
Selective actions of volatile general anaesthetics at molecular and cellular levels.
@en
P2093
P356
10.1093/BJA/71.1.65
P407
P577
1993-07-01T00:00:00Z