Nonlinear relation between Vmax and INa in canine cardiac Purkinje cells.
about
The cardiac sodium channel displays differential distribution in the conduction system and transmural heterogeneity in the murine ventricular myocardiumDifferential Mechanisms of Myocardial Conduction Slowing by Adipose Tissue-Derived Stromal Cells Derived from Different Species.Re-evaluation of the action potential upstroke velocity as a measure of the Na+ current in cardiac myocytes at physiological conditions.Electrophysiological effects of SD-3212, a new antiarrhythmic agent with vasodilator action, on guinea-pig ventricular cells.Electrophysiological effects of CI-980, a tubulin binding agent, on guinea-pig papillary muscles.Comparative direct electrophysiological effects of propofol on the conduction system and ionic channels of rabbit hearts.Electrophysiological effects of diprafenone, a dimethyl congener of propafenone on guinea-pig ventricular cells.Electrophysiological effects of CRE-1087 in guinea-pig ventricular muscles.Electrophysiological effects of the combination of mexiletine and flecainide in guinea-pig ventricular fibres.Effects of the two enantiomers, S-16257-2 and S-16260-2, of a new bradycardic agent on guinea-pig isolated cardiac preparations.Kinetic analysis of single sodium channels from canine cardiac Purkinje cells.The cardiac sodium channel: a target for antiarrhythmic drug action.Different electrophysiological effects of the levo- and dextro-rotatory isomers of mexiletine in isolated rabbit cardiac muscle.Voltage clamp of the cardiac sodium current at 37 degrees C in physiologic solutions.Intracellular calcium modulation of voltage-gated sodium channels in ventricular myocytes.Direct quantification of apparent binding indices from quinidine-induced in vivo conduction delay in canine myocardium.Basic concepts in cellular cardiac electrophysiology: Part I: Ion channels, membrane currents, and the action potential.Recombinant human collagen-based microspheres mitigate cardiac conduction slowing induced by adipose tissue-derived stromal cells.Effects of propafenone on electrical and mechanical activities of single ventricular myocytes isolated from guinea-pig hearts.Slow kinetic property of mexiletine in guinea pig atrium.Block of cardiac sodium channels by amiodarone studied by using Vmax of action potential in single ventricular myocytes.Modelling of frequency-dependent effects of lignocaine homologues on the maximum upstroke velocity of action potentials in guinea-pig papillary muscles.Mechanism of spontaneous excitability in human embryonic stem cell derived cardiomyocytes.Frequency-independent blockade of cardiac Na+ channels by riluzole: comparison with established anticonvulsants and class I anti-arrhythmics.Sodium lactate reversal of electrophysiological effects of imipramine in guinea-pig ventricular myocardium.Normal interventricular differences in tissue architecture underlie right ventricular susceptibility to conduction abnormalities in a mouse model of Brugada syndrome.Dose-dependent alteration of rat cardiac sodium current by isoproterenol: results from direct measurements on multicellular preparations.Combined effects of different class I antiarrhythmic agents on maximum rate of depolarization (Vmax) of action potentials in guinea-pig papillary muscles.Activation of the unfolded protein response downregulates cardiac ion channels in human induced pluripotent stem cell-derived cardiomyocytes.
P2860
Q28236977-81059561-3CE8-42BC-B0BB-5A4183301F5EQ33722157-34394CE1-C4E9-4A19-B6AE-5E37964284F8Q33789150-CE6D113F-9CEC-4A93-ADA2-2816437757AAQ34792940-5D89D4FD-63E5-49A4-9273-D941885A009EQ35025380-D310C7A1-EBD1-48C8-8CE1-3270DF0E67ABQ35026263-9E60B804-9E91-425B-A006-9336B21713A0Q35871012-8CC8B55F-4D06-4EBB-86D6-C0B76E5F7CDCQ35871199-ADCA75F7-7D1C-47E3-B8F0-60CEE2E6CCDEQ35872072-1A75AF6A-D225-4B67-A4F0-9CE0B7B238C8Q35872243-907539D2-23AD-4B7B-98A8-1DE3C38D3E9AQ36410436-739BBA69-4C47-4EAE-901D-987777161DD7Q36616392-667788B8-C4A6-4BE7-854E-F41B3D75186CQ38947957-F776D0C3-AB07-4E4F-86E0-5787969FA692Q39626631-9874C5E3-50E3-405A-836D-0AB8F6513FF8Q39933503-71FE1E4D-77F9-4668-AEE0-FA9D7D812E0FQ40335968-A048ADD9-43B5-4E00-A508-B133E70551EDQ40370308-D2D0BDF7-3B13-4517-9D41-FF79670EBDDDQ41512350-AC249AFF-4088-4F70-8DFF-477DB72E07CBQ41839851-810E5A81-C1B9-4329-AFE2-544401C4B44BQ42035743-1612F062-4B27-471E-9F05-A8483F381539Q42561319-7D199E95-0494-4A96-BD17-E2E00A069D86Q43468577-009E6D9E-CC56-49D2-9919-31EB5A86EB0DQ44970476-C095B280-043D-465A-A1FF-9DD1571CEBC5Q46563932-D14B32DA-D616-4685-ACD0-4020E93D57AFQ46567854-92F430E7-6D51-42A3-9018-2A872BB29584Q47227869-565897B3-9ACF-4883-A158-ED9A1898CA2FQ51584526-1647F1E0-03B5-44EA-990D-6B17A559C8CCQ51707851-0AB7A484-F969-4F9F-BA85-E21332175888Q51748407-D951F4B5-ADC5-4E11-9355-0B0404FD7898
P2860
Nonlinear relation between Vmax and INa in canine cardiac Purkinje cells.
description
1988 nî lūn-bûn
@nan
1988年の論文
@ja
1988年学术文章
@wuu
1988年学术文章
@zh
1988年学术文章
@zh-cn
1988年学术文章
@zh-hans
1988年学术文章
@zh-my
1988年学术文章
@zh-sg
1988年學術文章
@yue
1988年學術文章
@zh-hant
name
Nonlinear relation between Vmax and INa in canine cardiac Purkinje cells.
@en
Nonlinear relation between Vmax and INa in canine cardiac Purkinje cells.
@nl
type
label
Nonlinear relation between Vmax and INa in canine cardiac Purkinje cells.
@en
Nonlinear relation between Vmax and INa in canine cardiac Purkinje cells.
@nl
prefLabel
Nonlinear relation between Vmax and INa in canine cardiac Purkinje cells.
@en
Nonlinear relation between Vmax and INa in canine cardiac Purkinje cells.
@nl
P2093
P356
P1433
P1476
Nonlinear relation between Vmax and INa in canine cardiac Purkinje cells.
@en
P2093
P304
P356
10.1161/01.RES.63.2.386
P577
1988-08-01T00:00:00Z