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Isolated Atria (isolated + atrium)

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Medical Sciences	100%

Selected Abstracts

Atrial Tachyarrhythmias Induced By Acetylcholine In Tilapia (Oreochromis SP.) Isolated Atria

CLINICAL AND EXPERIMENTAL PHARMACOLOGY AND PHYSIOLOGY, Issue 5-6 2000
Tsai-Chu Lin
SUMMARY 1. Effects of the parasympathetic neuromediator acetylcholine (ACh) on atrial tissues vary greatly depending on the species, the type of atrial cells and experimental conditions. The aim of the present study was to investigate, with microelectrode techniques, the arrhythmogenic effects of ACh in tilapia (Oreochromis sp.) isolated atria at room (22,25°C) and high temperature (37°C). 2. Acetylcholine (1,10 ,mol/L) shortened action potential duration (APD), depressed action potential plateau and decreased twitch force in tilapia atria, as it did in human atrial fibres. In addition, ACh induced premature responses and re-entrant tachyarrhythmias (TA; frequency range from 7 to 25 Hz) in five of 19 and 14 of 22 tilapia atria tested at room and high temperature, respectively. The higher incidence of ACh-induced TA at 37°C compared with room temperature was statistically significant. 3. The ACh-induced TA consisted of high-frequency and uniform action potentials accompanied by tension oscillation and elevation of diastolic force (flutter). Acetylcholine-induced TA could be readily abolished by atropine (1 ,mol/L) and prevented by treatment with agents with local anaesthetic properties, such as 0.1 ,mol/L tetrodotoxin or 3 ,mol/L quinidine. The antagonistic action of quinidine occurred without significant prolongation of APD. 4. The present findings suggest that pharmacological concentrations of the cholinergic muscarinic agonist ACh readily induce TA (mainly atrial flutter) in tilapia atria, presumably via sodium channel-dependent re-entrant excitation. The poikilothermic tilapia appears to be an appropriate animal model for the study of atrial TA. [source]

KC 12291: An Atypical Sodium Channel Blocker with Myocardial Antiischemic Properties

CARDIOVASCULAR THERAPEUTICS, Issue 1 2004
Gareth W. John
ABSTRACT KC 12291 was designed as a voltage-gated sodium channel (VGSC) blocker with cardioprotective properties. KC 12291 has moderate inhibitory effects on peak (or rapid) Na+ current, and markedly reduces sustained (or slowly or non-inactivating) Na+ current. This distinguishes KC 12291 from conventional VGSC blockers such as local anesthetics or antiarrhythmics, which have little or no cardioprotective properties. Since VGSCs represent the main pathway for ischemic Na+ loading by failing to inactivate fully, KC 12291 exerts pronounced antiischemic activity principally by reducing the amplitude of sustained Na+ current. In isolated atria and Langendorff-perfused hearts, KC 12291 inhibits diastolic contracture, renowned for its resistance to pharmacological inhibition, reduces ischemic Na+ loading and preserves cardiac energy status. KC 12291 exerts oral antiischemic activity in vivo in the absence of major hemodynamic effects. Cardiac VGSC blockers such as KC 12291, which block cardiac VGSCs in atypical fashion by effectively inhibiting the sustained component of Na+ current, represent, therefore, promising potential antiischemic and cardioprotective drugs. [source]

CALCIUM ANTAGONIST PROPERTY OF CPU228, A DOFETILIDE DERIVATIVE, CONTRIBUTES TO ITS LOW INCIDENCE OF TORSADES DE POINTES IN RABBITS

CLINICAL AND EXPERIMENTAL PHARMACOLOGY AND PHYSIOLOGY, Issue 4 2007
Zhi-Jiang Huang
SUMMARY 1Torsades de pointes (TDP) is a severe adverse effect during the clinical use of dofetilide, a selective blocker of the rapid component of the delayed rectifier potassium channel (IKr). The present study was designed to test whether CPU228, a derivative of dofetilide with calcium (Ca2+) antagonist properties, could reduce TDP without reducing the blockade of IKr. 2The incidence of TDP in a rabbit model and the effective refractory period (ERP) were measured and compared for dofetilide and CPU228. Suppression of IKr and the L-type Ca2+ current (ICa,L) and the Ca2+ transients of isolated cardiomyocytes were investigated by whole-cell patch-clamp and Fluo-3 dye spectrophotometry. 3The incidence of TDP was greatly reduced by CPU228 relative to dofetilide, occurring in only one of six rabbits compared with five of six rabbits following dofetilide (P < 0.05). In isolated atria, prolongation of ERP by CPU228 was less than that of dofetilide and no reverse frequency dependence was observed. Negative inotropism by CPU228 was significant against positive inotropism by dofetilide. CPU228 inhibited both IKr and ICa,L currents and the IC50 for ICa,L inhibition was 0.909 µmol/L. At 3 µmol/L, CPU228 significantly suppressed the Ca2+ transients. 4CPU228 is able to block ICa,L, contributing to decreased TDP, while also blocking IKr activity. By combined blockade of IKr and ICa,L, CPU228 shares the property of complex Class III anti-arrhythmic agents. [source]