Effects of antiarrhythmic drugs on ventricular fibrillation thresholds of normal and ischaemic myocardium in the anaesthetized rat

Marshall, Richard; Muir, Alan W.; Winslow, E.

doi:10.1111/j.1476-5381.1983.tb09377.x

Cited by 33 publications

(9 citation statements)

References 23 publications

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“…Electrically-induced arrhythmias Verapamil and quinidine were tested against electrically-induced arrhythmias in conscious and anaesthetized rats by methods similar to those of Martinez & Crampton (1981) and Marshall et al (1983). Stainless steel electrodes were permanently implanted, 0.3 cm apart, into the left ventricle, and their free ends exteriorised in the neck region.…”

Section: Antiarrhythmic Studiesmentioning

confidence: 99%

Antiarrhythmic actions of verapamil against ischaemic arrhythmias in the rat

Curtis

MacLeod

Walker

1984

British J Pharmacology

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1 The actions of intravenous verapamil against arrhythmias induced by occlusion of a coronary artery were investigated in conscious rats. 2 Verapamil (2-20mgkg-1, i.v. given pre-occlusion) dose-dependently reduced arrhythmias in rats with either large or small occluded zones at an ED50 of 6 mg kg-'. This dose was effective when given immediately post-occlusion. 3 Severe arrhythmias, as opposed to PVC, were preferentially reduced. 4 In conscious, and pentobarbitone-anaesthetized rats, verapamil (6 mg kg-) had different effects on electrically-induced arrhythmias, and the ECG, from an equi-effective anti-arrhythmic dose of quinidine (20mgkg-1, i.v.). Quinidine decreased following frequency, but increased threshold current and pulse width, whereas verapamil did not. Both drugs increased P-R interval, but only quinidine increased QRS and Q-T intervals. 5Thirty minutes post-occlusion, the verapamil content of tissue and blood was determined after a 6 mg kg-1 dose given pre-or post-occlusion. Measurable levels of verapamil were found in both normal and ischaemic myocardium. Plasma and plasma water concentrations were 3.6 + 0.8 ltmol -1 and 0.6±0.1 Mmoll-1 (x±s.e.mean), respectively following post-occlusion administration vs. 2.7 ± 1.2 and 0.24 ± 0.04 for pre-occlusion administration. 6 Plasma water concentrations were close to IC50 values for inhibition of contractility in rat atria and ventricles. Similar concentrations depressed slow action potentials induced in rat ventricles by raised K+ 7 We suggest that the ability of verapamil to prevent severe ventricular arrhythmias following myocardial ischaemia in the conscious rat is largely due to the calcium antagonist effects of the drug.

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Section: Antiarrhythmic Studiesmentioning

confidence: 99%

Antiarrhythmic actions of verapamil against ischaemic arrhythmias in the rat

Curtis

MacLeod

Walker

1984

British J Pharmacology

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“…Our present results suggest that the suppression of glibenclamide-sensitivie K+ channels may underlie at least partly the mechanism of antiarrhythmic effects of calmodulin-antagonizing antiarrhythmic drugs. In this connection, it is noteworthy that bepridil, a potent calmodulin antagonist, is expected to be clinically effective for ventricular arrhythmia (Marshall et al, 1983;Singh et al, 1985).…”

Section: Effects Of Calmodulin Antagonists On Krn2391-induced K+ Currmentioning

confidence: 99%

Blockade by antiarrhythmic drugs of glibenclamide‐sensitive K⁺ channels in Xenopus oocytes

Sakuta

Okamoto

Watanabe

1992

British J Pharmacology

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“…VFT is widely used for the study of arrhythmia susceptibility and has been shown to predict the increased and decreased susceptibility of the ventricle to arrhythmias in a range of situations [56, 66, 70]. Some investigators are concerned that VFT does not predict the anti-arrhythmic actions of certain drugs and fails to predict the occurrence of spontaneous arrhythmias [71]. However, Harumi et al [72] have demonstrated that anti-arrhythmic drugs can be classified depending upon their effects on VFT, ventricular refractoriness and electrical restitution properties, indicative of the multiple mechanisms of action of many of these drugs.…”

Section: Spontaneous Versus Induced Arrhythmiamentioning

confidence: 99%

Mechanisms underlying the autonomic modulation of ventricular fibrillation initiation—tentative prophylactic properties of vagus nerve stimulation on malignant arrhythmias in heart failure

Brack

Winter

2012

Heart Fail Rev

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Classical physiology teaches that vagal post-ganglionic nerves modulate the heart via acetylcholine acting at muscarinic receptors, whilst it is accepted that vagus nerve stimulation (VNS) slows heart rate, atrioventricular conduction and decreases atrial contraction; there is continued controversy as to whether the vagus has any significant direct effect on ventricular performance. Despite this, there is a significant body of evidence from experimental and clinical studies, demonstrating that the vagus nerve has an anti-arrhythmic action, protecting against induced and spontaneously occurring ventricular arrhythmias. Over 100 years ago Einbrodt first demonstrated that direct cervical VNS significantly increased the threshold for experimentally induced ventricular fibrillation. A large body of evidence has subsequently been collected supporting the existence of an anti-arrhythmic effect of the vagus on the ventricle. The development of prognostic indicators of heart rate variability and baroreceptor reflex sensitivity—measures of parasympathetic tone and reflex activation respectively—and the more recent interest in chronic VNS therapy are a direct consequence of the earlier experimental studies. Despite this, mechanisms underlying the anti-arrhythmic actions of the vagus nerve have not been fully characterised and are not well understood. This review summarises historical and recently published data to highlight the importance of this powerful endogenous protective phenomenon.

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Effects of antiarrhythmic drugs on ventricular fibrillation thresholds of normal and ischaemic myocardium in the anaesthetized rat

Cited by 33 publications

References 23 publications

Antiarrhythmic actions of verapamil against ischaemic arrhythmias in the rat

Antiarrhythmic actions of verapamil against ischaemic arrhythmias in the rat

Blockade by antiarrhythmic drugs of glibenclamide‐sensitive K⁺ channels in Xenopus oocytes

Mechanisms underlying the autonomic modulation of ventricular fibrillation initiation—tentative prophylactic properties of vagus nerve stimulation on malignant arrhythmias in heart failure

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Effects of antiarrhythmic drugs on ventricular fibrillation thresholds of normal and ischaemic myocardium in the anaesthetized rat

Cited by 33 publications

References 23 publications

Antiarrhythmic actions of verapamil against ischaemic arrhythmias in the rat

Antiarrhythmic actions of verapamil against ischaemic arrhythmias in the rat

Blockade by antiarrhythmic drugs of glibenclamide‐sensitive K+ channels in Xenopus oocytes

Mechanisms underlying the autonomic modulation of ventricular fibrillation initiation—tentative prophylactic properties of vagus nerve stimulation on malignant arrhythmias in heart failure

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Blockade by antiarrhythmic drugs of glibenclamide‐sensitive K⁺ channels in Xenopus oocytes