Bernard Bui-Xuan

Thoracoscopic Epicardial Radiofrequency Ablation for Vagal Atrial Fibrillation in Dogs

Epicardial radiofrequency catheter ablation of the atria in the open‐chest dog has been shown to reduce inducibility of atrial fibrillation. Video‐assisted endoscopic techniques decrease the operative trauma in adult thoracic surgery. We report our results of video‐assisted thoracoscopic radiofrequency catheter ablation of the atria for the prevention of atrial fibrillation induction in canines. In 12 consecutive anesthetized dogs, induction of sustained atrial fibrillation was reproducibly obtained by burst pacing and cervical vagal stimulation. In six dogs, biatrial ablation was performed through right and left minithoracotomies and guided by video‐assisted endoscopic techniques. The remaining six dogs underwent a video‐guided left atrial procedure. Long continuous and transmural lesions were produced using epicardial temperature controlled radiofrequency energy delivered according to a simplified maze approach. Transmural lesions were demonstrated at the end of the study by examination of the heart. Sustained atrial fibrillation was still inducible after the right atrial ablation but sustained atrial fibrillation could not be induced following left atrial ablation. In acute canine studies: (1) epicardial radiofrequency catheter ablation of the atria is feasible using video‐assisted endoscopic techniques; (2) ablation extended or confined to the left atrium appears to be effective in preventing the inducibility of sustained vagal atrial fibrillation; and (3) ablation of the right atrium alone had no antiarrhythmic effect.

5‐Fluorouracil—Induced Tako‐Tsubo—Like Syndrome

Tako‐Tsubo cardiomyopathy (also known as apical ballooning syndrome) is a relatively new clinical entity characterized by reversible left ventricular dysfunction. Its clinical presentation and electrocardiographic findings are similar to acute myocardial infarction but without significant coronary artery disease. Cardiotoxicity is a major complication of various anticancer drugs; however, only a few cases of Tako‐Tsubo cardiomyopathy associated with anticancer drugs, including 5–fluorouracil, have been reported. We describe a 48–year‐old man who developed acute coronary syndrome, thought to be similar to Tako‐Tsubo syndrome, after receiving a chemotherapy regimen consisting of 5–fluorouracil, oxaliplatin, and calcium folinate (FOLFOX protocol) for colic adenocarcinoma. Approximately 24 hours after receiving his first cycle of chemotherapy, the patient, who did not have a history of cardiovascular disease, developed chest pain, with abnormal electrocardiographic results and a mildly increased troponin T level. Coronary angiography did not show any significant coronary lesions. Echocardiography revealed marked left ventricular dysfunction (left ventricular ejection fraction [LVEF] 15%) with severe hypokinesia in all apical and median segments. The patient was stabilized with the introduction of an intraaortic balloon pump and pressor therapy. One month later, myocardial magnetic resonance imaging confirmed total recovery of left ventricular systolic function. Thus, the second chemotherapy cycle was administered at half the dose‐intensity along with ramipril and diltiazem. The chemotherapy regimen was well tolerated. Two weeks later, at the end of the third chemotherapy cycle, administered using the full‐dose regimen, the patient experienced cardiac arrest, necessitating cardiopulmonary resuscitation. After transfer to the cardiology intensive care unit, acute heart failure recurred (LVEF 35%). Normal recovery of left ventricular function occurred a few days later. Chemotherapy was discontinued, and treatment with bisoprolol was started. Four months later, the patient remained completely asymptomatic of any cardiac manifestations. Use of the Naranjo adverse drug reaction probability scale indicated a probable relationship (score of 8) between the patients development of acute coronary Tako‐Tsubo‐like syndrome and 5–fluorouracil. Clinicians should be aware of this potential adverse effect when monitoring patients receiving chemotherapy with 5–fluorouracil.

Efficacy of a β-adrenergic receptor antagonist, propranolol, in preventing ischaemic ventricular fibrillation: dependence on heart rate and ischaemia duration

OBJECTIVES To investigate the prevention of ventricular fibrillation with a beta-adrenergic receptor (beta-AR) antagonist in anaesthetized, open-chest pigs in a model of ischaemia, intended to reproduce what happens either in anginal attack or in the first hour of infarction. METHODS Ventricular fibrillation threshold (VFT) was determined with trains of diastolic stimuli of 100 ms duration delivered by a subepicardial electrode inserted in the area subjected to ischaemia. Ischaemia was obtained by the complete occlusion of the left anterior descending coronary artery, either near its origin during brief but increasing periods (30, 60, 90, 120, 150, 180, 240, 300 s), or half-way from its origin for a much longer time (more than 60 min). RESULTS During transient proximal occlusion and isoprenaline infusion (0.25 microgram/kg/min), propranolol (50 micrograms/kg plus 2 micrograms/kg/min) attenuated both tachycardia and the fall in VFT to 0 mA. The shortening of MAP duration accompanying depolarization of the fibres was concurrently slowed down, and time to fibrillation prolonged (122 +/- 15 to 262 +/- 14 s, p < 0.001). In the absence of isoprenaline infusion, propranolol exerted similar effects, but to a lesser degree, in proportion to heart rate dependent on sympathetic activity. In contrast, it became unable to raise VFT before and during ischaemia, when heart rate was kept constant by pacing. After persistent midportion occlusion, significant differences in VFT were found only at the 5th min, depending on whether heart rate was accelerated by isoprenaline (0.8 +/- 0.2 mA), left normal (1.8 +/- 0.3 mA) or slowed down by propranolol (1.6 +/- 0.3 mA). Later on, especially after 15 and 25 min of ischaemia, VFT, which was below 1.0 mA, did not appear to be influenced by the activation or blockade of beta-ARs: spontaneous fibrillations were observed in the same number in this period with or without the administration of propranolol. Beyond 30 min after occlusion, the rise in VFT, subsequent to the first irreversible cell damage, also occurred in the same way. CONCLUSIONS The prevention of ischaemic ventricular fibrillation by a beta-AR antagonist, judged from VFT, is easily checked experimentally when ischaemia is only transitory, especially if sympathetic activity is high. The maintenance of VFT at a relatively high level is essentially related to the depressant effect on the sinus rate. The same animal model does not give support to an effective protection in the first hour of infarction. However, the control of heart rate may also be beneficial in these circumstances by attenuating systemic haemodynamic disorders.

Ivabradine induces an increase in ventricular fibrillation threshold during acute myocardial ischemia: an experimental study.

Background: Tachycardia often facilitates ischemic ventricular fibrillation (VF). Objective: This study assessed the impact of ivabradine (IVA), a selective inhibitor of the cardiac pacemaker If current, on ventricular fibrillation threshold (VFT) during acute myocardial ischemia. Methods: The experiments were conducted on a total of 54 domestic pigs. Myocardial ischemia was induced in anesthetized pigs by total 1-minute coronary occlusion at baseline and then on 2 occasions after intravenous administration of saline or 0.5 mg/kg of IVA. VF was triggered by electrical stimuli of increasing intensity at a fixed rate. Heart rate (HR), VFT, monophasic action potential duration, and peak of the time derivative of left ventricular pressure (LV dP/dtmax) were monitored on each occasion. The activity of mitochondrial succinodehydrogenase was measured on heart sections. Results: Compared with controls, IVA induced a 31% reduction in HR, a 2.9-fold increase in VFT, and prevented ischemia-induced monophasic action potential duration shortening (+1 ± 12 vs. −14 ± 11 milliseconds) without affecting peak LV dP/dt. This beneficial effect on VFT was mainly due to HR reduction and was accompanied by a significant reduction in the hypoxic area (26% ± 1% vs. 38% ± 1%, P < 0.0001). Conclusion: HR reduction and the decrease in myocardial damage induced by IVA protected against primary ischemic VF without altering myocardial contractility.

Hidden Cardiac Lesions and Psychotropic Drugs as a Possible Cause of Sudden Death in Psychiatric Patients: A Report of 14 Cases and Review of the Literature

Objective: To confirm the hypothesis that psychotropic drugs, especially neuroleptics, lithium, and antidepressants, are implicated as a cause of unexpected sudden death in psychiatric patients because of their cardiotoxicity, especially when hidden cardiac lesions are present. Method: We performed a full pathological examination of 14 psychiatric patients who unexpectedly and suddenly died between 1980 and 1999. Results: Neuroleptics were involved in 13 instances, antidepressants in 9, and anxiolytics in 5. Psychotropic drugs were combined in all but a single patient. In all 14 patients, toxicological analyses discarded drug overdose as cause of death. At postmortem examination, the brain and abdominal organs were normal. In 13 patients, the following lesions were found in the heart and lungs: dilated cardiomyopathy (6 patients), left ventricular hypertrophy (2 patients, 1 of which was associated with mitral prolapse and anomalies of His bundle), arrhythmogenic cardiopathy of the right ventricle (1 patient), pericarditis (1 patient), mitral prolapse (1 patient), muscular bridge on the anterior interventricular artery (1 patient), and Mendelsons syndrome (1 patient). In 1 case, no changes were seen. Most of the drugs that were taken immediately prior to death can induce arrhythmias either by prolonging the QT interval, potentially resulting in torsades de pointes, or by widening QRS complexes, possibly leading to reentry and ventricular fibrillation. Conclusion: Our findings suggest that the arrhythmogenic effects of psychotropic drugs can be exacerbated when preexisting hidden cardiac lesions are present and can result in sudden death. Patients should be systematically evaluated for cardiac lesions prior to starting any treatment with psychotropic drugs; the minimal effective dosage should be used.

The effects of ropivacaine at clinically relevant doses on myocardial ischemia in pigs.

A major risk associated with bupivacaine during myocardial ischemia is ventricular fibrillation. We investigated the influence of ropivacaine on cardiac contractility and the propensity to ventricular fibrillation before and after myocardial ischemia in a placebo-controlled pig study. Anesthetized domestic pigs were administered 1 mg·kg−1 of ropivacaine intravenously over 1 min and then 0.03 mg·kg−1·min−1 as a 30-min infusion, or saline. The following endpoints were measured before and after ropivacaine administration: (1) the ventricular fibrillation threshold (VFT) before and during myocardial ischemia induced by total transient ligation of the anterior interventricular artery and (2) electrophysiological (sinus heart rate, duration of QRS and QT intervals) and hemodynamic (blood pressure, the time derivative of left ventricular pressure [peak LV dP/dt]) parameters. Ropivacaine induced no changes in sinus heart rate, QRS, and or QT before or during ischemia. In contrast, there was a mild increase in the VFT before ischemia, which was drastically and significantly reduced during ischemia. The reduction of peak LV dP/dt during ischemia was further increased by ropivacaine. We also found that the effect of ropivacaine on the VFT was coronary blood flow-dependent, with a markedly decreased threshold in the presence of ischemia. Similar effects have been observed in humans with several other local anesthetics, as well as with class I antiarrhythmic drugs. The results of this study should be taken into account by anesthesiologists when administering ropivacaine to coronary patients.

Cardiac β-adrenoceptor activation and ventricular fibrillation under normal and ischaemic conditions

Objectives: To investigate the role of ventricular and atrial β-adrenoceptor activation by isoprenaline in the genesis of rhythm disorders and risk of fibrillation in the healthy or ischaemic heart. Methods: The study was performed in anaesthetized, open-chest pigs. Electrical fibrillation threshold (EFT) of the ventricles was measured with trains of diastolic stimuli of 100 ms duration synchronized with respect to the R-waves and delivered to the myocardium by a subepicardial electrode introduced into the area which could be subjected to ischaemia. Monophasic action potential (MAP) and effective refractory period (ERP) were recorded in the same area. Ischaemia was obtained by complete occlusion of the left anterior descending coronary artery near its origin during increasing periods (30, 60, 90, 120, 150, 180, 240 s). Results: At a rate varying according to the action exerted by isoprenaline on the sinus rate, EFT decreased by about 30% in the healthy heart during the infusion of 0.5 μg/kg/min isoprenaline under the influence of the acceleration of cardiac beats. In the ischaemic heart, sinus tachycardia accelerated the fall in EFT and the reduction in MAP duration and resulted sooner in spontaneous ventricular fibrillation. During ventricular pacing at a constant rate of 200 beats/min, isoprenaline raised EFT by nearly 80% in the absence of ischaemia, but this rise was abolished by ischaemia, at least of no-flow type. Conclusions: Tachycardia produced by activation of atrial adrenoceptors decreases EFT in the healthy heart and aggravates its fall in the ischaemic heart. Ventricular adrenoceptor activation counteracts the EFT fall related to tachycardia in the healthy heart, but not in the ischaemic heart. Therefore, the protection against ischaemic fibrillation due to β-blockers would be essentially attributable to their action on the sinus node.

Protective effects of ranolazine and propranolol, alone or combined, on the structural and functional alterations of cardiomyocyte mitochondria in a pig model of ischemia/reperfusion

Preventing the consequences of ischemia/reperfusion (I/R)‐induced lesions in the clinic requires the administration of pharmacological agents prior to restoring coronary vascularization. The aim of this study was to evaluate the effects of ranolazine and propranolol when administered either alone or combined prior to I/R induction in a pig model. Thirty domestic pigs were randomly assigned to five groups of six animals including (i) sham animals; (ii) untreated animals with 45‐min ischemia and 1‐min reperfusion; animals administered intravenously with (iii) ranolazine, or (iv) propranolol, or (v) both combined, prior to 45‐min ischemia and 1‐min reperfusion. The heart rate (HR), duration of monophasic action potentials (dMAP), and peak of the time derivative of left ventricular pressure (LV dP/dt max) were measured during ischemia and after 1 min of reperfusion. Structural and functional parameters of mitochondria were analyzed in tissue samples taken from the left ventricle ischemic area at the end of the experiment. I/R induced expected effects, namely accelerated HR, decreased dMAP and LV dP/dt max, and altered mitochondrial structural and functional parameters including decreased oxygen consumption, increased reactive oxygen species (ROS) production, and reduced calcium retention capacity resulting in the opening of mitochondrial permeability transition pores (mPTP). Ranolazine and propranolol administered either alone or combined prior to I/R significantly decreased all of these deleterious consequences. The protective effects of ranolazine and propranolol are seemingly due to the prevention of calcium overload and resulting lesions in mitochondria.

Prevention by calcium antagonists of profibrillatory effects of class I antiarrhythmic drugs in acute myocardial ischemia : Study in pig heart in situ

Class I antiarrhythmic drugs do not decrease, but increase, the risk of ventricular fibrillation in the ischemic myocardium. On the contrary, vulnerability to fibrillation related to ischemia appears to be substantially reduced by calcium antagonists. We assessed whether the calcium antagonist diltiazem (0.50 mg/kg bolus plus 0.02 mg/kg/min infusion) could prevent the profibrillatory effect or even partially restore the antifibrillatory effect of a class I antiarrhythmic drug, flecainide (1 mg/kg bolus plus 0.04 mg/kg/min infusion) in the ischemic myocardium of anesthetized, open‐chest pigs. Ischemia was obtained by completely occluding the left anterior descending coronary artery near its origin. Vulnerability to fibrillation was assessed by electrical fibrillation threshold (EFT), measured with diastolic impulses of 100 msec duration delivered at a rate of 180 beats/minute. Diltiazem did not oppose the rise in EFT induced by flecainide in the absence of ischemia (6.8 ± 1.2 to 9.9 ± 0.9 mA, p<0.001). It limited the fall in EFT observed under the dual influence of ischemia and flecainide (4.2 ± 0.9 vs 1.3 ± 0.6 mA, p<0.001). By reducing calcium entry into myocardial fibers, diltiazem delayed ischemic depolarization, as evidenced by reduced shortening of the monophasic action potential duration from 215 ± 7 to 200 ± 4 msec, instead of 178 ± 6 (p<0.001), and reduced lengthening of intraventricular conduction time from 33 ± 5 to 43 ± 4 msec, instead of 53 ± 4 (p<0.01). Therefore, diltiazem is likely to prevent the loss and even the reversal of the antifibrillatory properties of flecainide due to myocardial ischemia in dosages that do not adversely affect myocardial contractility or atrioventricular conduction to a large extent.

Delay by a Calcium Antagonist, Amlodipine, of the Onset of Primary Ventricular Fibrillation in Myocardial Ischemia

SummaryCalcium antagonists have been reported to counteract the increase by ischemia of vulnerability to ventricular fibrillation. This ability might be especially of interest in the prevention of sudden death subsequent to a major, but transitory, inadequacy between myocardial oxygen requirements and available coronary blood flow produced by exercise, emotion, etc., because death is then not related to irreversible damage of myocardial fibers. This study has been undertaken to examine the protective effect of a calcium antagonist on an animal model of this type of ischemia. This model used complete, but transient occlusion of the left anterior descending coronary artery near its origin during pacing at a constant high rate (180 beats/min) in anesthetized, open-chest pigs, most often resulting in fibrillation within 1–2 minutes after a progressive fall of the electrical fibrillation threshold. Amlodipine was the preferred calcium antagonist for this study because it is only moderately negatively inotropic. The results of the preventive administration of amlodipine was assessed by the time to onset of fibrillation. Amlodipine 0.30 mg/kg prolonged this time by 50–100% (p < 0.05) without appreciable impairment of blood pressure or myocardial contractility. Concurrently, amlodipine delayed the shortening of the monophasic action potential duration, the lengthening of conduction time, and the alterations of ST segments and T waves linked to ischemic depolarization. Consequently, when given experimentally before the occurrence of major, but transitory ischemia, amlodipine protected against fibrillation. Similarly, in clinical settings it ought to delay sudden death that may occur as a result of a major but transitory inadequacy between myocardial oxygen requirements and available coronary blood flow.