A comparative study of anaesthetic agents on high voltage activated calcium channel currents in identified molluscan neurons
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Citations
Cell calcium and the control of membrane transport : Society of General Physiologists, 40th Annual Symposium : Marine Biological Laboratory, Woods Hole, Massachusetts, 3-7 September, 1986
Rapid pressure changes and surface displacements in the squid giant axon associated with production of action potentials.
Voltage-dependent block of calcium channel current in the calf cardiac Purkinje fiber by dihydropyridine calcium channel antagonists.
References
Pentobarbital inhibition of human recombinant α1A P/Q-type voltage-gated calcium channels involves slow, open channel block
Peptidergic Systems in the Pond Snail Lymnaea: From Genes to Hormones and Behavior
The actions of halothane on spontaneous activity, action potential shape and synaptic connections of the giant serotonin-containing neurone of Lymnaea stagnalis (L.).
Modulation of reconstructed peptidergic synapses and electrical synapses by general anaesthetics.
Multiple cellular and subcellular actions of general anaesthetics on cultured molluscan neurones.
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Frequently Asked Questions (2)
Q2. What have the authors stated for future works in "A comparative study of anaesthetic agents on high voltage activated calcium channel currents in identified molluscan neurons" ?
( Haung et al, 2010 ), but further work will be required to demonstrate this with certainty. It has been shown, using the same model system, that a calcium-dependent pseudoplateau of action potentials is abbreviated in the presence of halothane ( Winlow et al., 1982 ; Winlow et al., 1989 ; Winlow et al., 1992 ). Contrasting with the findings of this study and those of Yar and Winlow ( 2016 ), in which volatile anaesthetics produce little or no displacement of the I−V curve along the voltage axis, DHPs tend to shift calcium channel inactivation to more negative potentials. Conversely, volatile anaesthetic induced depression of Ca2+ influx through L-type and DHP insensitive voltage operated channels is not relieved by increasing [ Ca2+ ] out ( Gross & Macdonald, 1988 ), indicating that anaesthetic action is independent of changes in surface potential.