Predictors of response to repetitive transcranial magnetic stimulation (rTMS) in the treatment of major depressive disorder.

Repetitive transcranial magnetic stimulation (rTMS), based on the principle of electromagnetic induction, consists of applying series of magnetic impulses to the cerebral cortex so as to modulate neurone activity in a target zone. This technique, still experimental, could prove promising in the field of psychiatry, in particular for the treatment of major depressive disorder. It is important for the clinician to be able to assess the response potential of a given patient to rTMS, and this among other things requires relevant predictive factors to be available. This review of the literature aims to determine and analyse reported predictive factors for therapeutic response to rTMS treatment in major depressive disorder. Different parameters are studied, in particular age, the severity of the depressive episode, psychological dimensions, genetic factors, cerebral blood flows via cerebral imagery, and neuronavigation. The factors found to be associated with better therapeutic response were young age, low level of severity of the depressive episode, motor threshold intensity over 100%, more than 1000 stimulations per session, more than 10 days treatment, L/L genotype on the 5-HTTLPR transporter gene, C/C homozygosity on the promotor regions of the 5-HT1A receptor gene, Val/Val homozygosity on the BDNF gene, cordance analyses by EEG, and finally the accurate localisation provided by neuronavigation. The authors conclude that investigations in larger patient samples are required in the future, and that the work already achieved should provide lines of approach for the coming experimental studies.

Trimetazidine demonstrated cardioprotective effects through mitochondrial pathway in a model of acute coronary ischemia.

Myocardial ischemia affects mitochondrial function leading to ionic imbalance and susceptibility to ventricular fibrillation. Trimetazidine (TMZ), a metabolic agent, is clinically used as an anti-anginal therapy. This study was conducted to compare the effect of TMZ 20 mg immediate release (IR) and TMZ 35 mg modified release (MR), two bioequivalent marketed formulations of TMZ, on cardioprotection during acute ischemia in pigs. A 4-day oral treatment with TMZ 20 mg IR (800 mg, tid) or TMZ 35 mg MR (1,400 mg, bid) had no effect on ventricular fibrillation threshold (VFT) prior to ischemia but significantly prevented the decrease in VFT observed in placebo-treated groups after a 1-min left anterior descending coronary artery occlusion. This effect occurred without modifying cardiac hemodynamic and conduction parameters. In both TMZ-treated groups, a significant reduction of the ischemic area as well as a protection of cardiomyocytes were observed. Cardiac enzymatic activity (phosphorylase, succinate dehydrogenase, ATPase) was increased in TMZ-treated groups. Both formulations preserved mitochondrial structure and improved mitochondrial function as demonstrated by a twofold increase of oxidative phosphorylation, by a reduction of reactive oxygen species (ROS) production (>30 %) and by a trend to increase the mitochondrial calcium retention capacity. In this model of ischemia, both TMZ formulations, leading to equivalent TMZ plasma exposures, demonstrated similar cardioprotective effects. This protection could be attributed to a preservation of mitochondrial structure and function, which plays a central role in ATP and ROS production and consequently could be considered as a target of cardioprotection.

Protective role of selenium supplementation against cardiac lesions induced by the combination of levomepromazine and risperidone in the rabbit.

Neuroleptics are a suspected cause of sudden death in psychiatric patients, especially in those with pre-existing cardiac lesions. As these lesions were previously shown to be associated with selenium (Se) deficiency, the aim of the present study was to evidence the possible protective effect of Se supplementation against cardiac lesions induced by the combination of the neuroleptic drugs levomepromazine and risperidone in the rabbit. Two groups of 6 rabbits were treated with 3 mg/kg of levomepromazine daily intramuscularly combined with 1 mg/kg of risperidone intramuscularly every other week for 3 consecutive months, and one group additionally received a solution of sodium selenite (2 microg/kg/day) intramuscularly during the whole treatment period. Furthermore, one group of six untreated animals was given the Se supplementation and another group of six control animals received saline daily. Blood samples were drawn before and at the end of the treatment period for the measurement of serum Se levels. At the end of the study, all animals were sacrificed and their hearts were removed for the measurement of tissue Se concentrations. In addition, the hearts were prepared for histopathological examination. A variety of cardiac lesions was found in the neuroleptics-treated animals without supplementation and to a lesser extent in the control and Se-supplemented untreated animals. Importantly, only rare cardiac lesions were observed in neuroleptics-Se-treated animals. The most striking differences in Se concentrations were noted in the myocardium: as compared to controls, there was a 43% reduction in neuroleptics-treated, but non-Se-supplemented animals (p < .01), at the end of the treatment period, whereas only a 14% reduction (p < .05) was noted in the neuroleptics-Se-treated animals. These results confirm that neuroleptics induce cardiac lesions associated with Se deficiency. Selenium supplementation markedly decreased the incidence and severity of neuroleptics-induced cardiac lesions and these findings may serve as a basis for further evaluation of the protective role of Se supplementation in neuroleptics-treated patients. However, Se supplementation in normal animals without Se deficiency was also shown to be cardiotoxic.

Role of selenium in heart lesions produced by neuroleptics in the rabbit.

Organic and/or functional heart lesions sometimes resulting in sudden death have been described in psychiatric patients treated with neuroleptics. As selenium has been suggested previously to play a role in the development of such lesions, the present study was undertaken to determine whether a correlation could be found between heart lesions induced by neuroleptics and changes in blood selenium as well as myocardial tissue concentrations in the rabbit. Twelve NZW adult rabbits were treated intramuscularly with both levomepromazine (3 mg kg(-1) day(-1)) and risperidone (1 mg kg(-1) once every other week) for 3 months, and compared with 12 saline-treated controls. Blood samples were drawn before and at the end of the study. Tissue samples from the heart, liver and kidneys were obtained at the end of treatment, and the hearts were examined histologically. Heart lesions including disorganization of cardiac fibers, myolysis, interstitial and endocardial fibrosis, and necrosis were noted in treated animals, but not in controls. There was a 20% decrease in selenium blood levels and a 50% decrease in selenium myocardial tissue levels in treated animals compared with controls (P < 0.001). In contrast, no differences in selenium levels in liver and kidneys were found across the experimental groups. These results suggest a possible correlation between selenium depletion and neuroleptics-induced heart lesions.

[Hormone replacement therapy: toxicity of glycol ethers]. / Hormonothérapie de substitution: toxicité des éthers de glycol.

Glycol ethers (GE) belong to two main series: series E, which include ethylene glycol ethers (EGE) and series P which include propylene glycol ethers (PGE). GE are widely used as solvents in a large number of industrial, household and cosmetic applications. EGE can be found in water paints, varnishes, inks, household products. Severe adverse effects have been noted with pharmaceutical formulations containing diethylene glycol monoethyl-ethers and this led to withdrawal from the French market. The toxicity of GE depends on the molecular weight and the metabolites generated. It can manifest following acute or chronic exposure by disorders of the nervous system, bone marrow, immune system, kidneys as well as fertility, reproduction and embryofetal development. Several EGE are mutagenic. The carcinogenic risk is not known. The most toxic derivatives EGME, EGMEA, EGEE and EGEEA alter male and female fertility, and induce malformations. Taking these toxic effects into consideration, what is the place of GE as absorption promoting agents? An example is DEGEE, which facilitates estradiol penetration when used as a gel in the treatment of estrogen deficiency. This review is intended to address this issue.

Cardiac lesions induced by 5-fluorouracil in the rabbit.

Cardiotoxicity is a rare, but well-recognized complication of treatments with the anti-cancer drug 5-fluorouracil (5FU). The underlying mechanism, however, is not fully elucidated. A spasm of the coronary arteries is often considered to be the leading cause of myocardial ischemia and decreased contractility associated with 5FU. As spasm cannot account for all reported adverse cardiac effects, the present study was undertaken to search for alternative mechanisms. Groups of six rabbits were given either a single intravenous dose of 50 mg/kg 5FU or four intravenous doses of 15 mg/kg 5FU at 7-day intervals. A third group served as control. The heart was removed shortly after death or scheduled sacrifice of the animals, to perform macroscopic and microscopic examinations of the heart and to evidence apoptosis by the TUNEL method. Following a single dose of 50 mg/kg 5FU, all animals rapidly developed a massive hemorrhagic myocardial infarct with spasms of the proximal coronary arteries. Repeated infusions of 15 mg/kg 5FU induced left ventricular hypertrophy, foci of myocardial necrosis, thickening of intra-myocardial arterioles, and disseminated apoptosis in myocardial cells of the epicardium, as well as endothelial cells of the distal coronary arteries. These results indicate that a spasm of the coronary arteries is not the only mechanism of 5FU cardiotoxicity, and that apoptosis of myocardial and endothelial cells can result in inflammatory lesions mimicking toxic myocarditis.

Cardiac lesions induced by neuroleptic drugs in the rabbit.

Sudden death seems to be more frequent following treatment with neuroleptic drugs in patients with pre-existing cardiac lesions, especially dilated and hypertrophic myocardiopathy. The present study was undertaken to confirm the hypothesis that myocardial lesions can be induced by neuroleptic drugs. Eight groups of 6 New-Zealand White rabbits were treated for 3 months: group I: controls (saline); group II: 15 mg/kg/day amisulpride; group III: 0.20 mg/kg/day haloperidol; group IV: 3 mg/kg/day levomepromazine; group V: 0.30 mg/kg/day olanzapine; group VI: 1.0 mg/kg risperidone, every 15 days; group VII: levomepromazine+haloperidol, same dose levels as single treatments; group VIII: levomepromazine+risperidone, same dose levels as single treatments. The hearts were immediately weighted and fixed, and paraffin sections were prepared and examined. Ventricular hypertrophy was observed following treatment with olanzapine and was still more marked with the combinations levomepromazine+haloperidol and levomepromazine+risperidone. Amisulpride and haloperidol induced necrotic lesions and levomepromazine, endocardial fibrosis. There was a lack of severe cardiac lesions following treatment with risperidone. The observed cardiac lesions can be compared to those seen in toxic myocarditis. These findings confirm the hypothesis that some neuroleptic drugs induce myocardial lesions. Further studies are warranted to demonstrate the effects of treatments of longer duration and the influence of pre-existing cardiac lesions.

[Cardiotoxicity of 5-fluorouracil: report of 6 cases]. / Cardiotoxicité du 5-fluorouracil: à propos de 6 nouveaux cas.

5-fluorouracil (5-FU), a fluoropyrimidine antimetabolite, is widely used in the treatment of cancers of the digestive tract and breast. The clinical cardiotoxicity of 5-FU was first reported in 1975. Adverse cardiac effects include coronary disorders, heart failure and sudden death of suspected cardiac origin. Six new cases are reported, including 5 cases of angina and one of heart failure. The patients, 4 males and 2 females, were 26 to 71 years of age (mean: 56.2). They had no medical history of heart failure, myocardial ischemia or electrocardiographic anomalies prior to 5-FU treatment. Three patients had hypertension of whom one had had type-II diabetes mellitus for the past 20 years. Clinical symptoms included chest pain in 4 patients and heart failure in one, whereas the last patient had ECG changes with no associated clinical symptoms. Clinical symptoms of angina totally disappeared after the cessation of 5-FU administration, but heart failure was alleviated only after the introduction of digitalis, a converting-enzyme inhibitor and a diuretic. It has been estimated that 1.6% of patients treated with 5-FU develop adverse cardiac effects. Patients at greater risk are those with a history of ischemic cardiac disease, thoracic radiotherapy or high-dose 5-FU therapy. The mechanism involved is not clearly elucidated. Spasms of the coronary arteries or toxic inflammation of the myocardium have been suspected. These 6 new cases confirm the potential for cardiotoxicity of 5-FU and the need for careful cardiac monitoring of treated patients.

[Deleterious cardiac effects of serotonin in myocardial ischemia: role of naftidrofuryl]. / Analyse des effets délétères cardiaques de la sérotonine lors de l'ischémie myocardique: place du naftidrofuryl.

It is now accepted that serotonin can either initiate or aggravate myocardial ischaemia through a vasoconstrictor action and platelet activation. It is therefore possible that substances likely to neutralize the effects of serotonin could be used, without any danger, in humans with ischaemic heart disease. This type of action may therefore be exerted by 5-HT2 antagonists, such as naftidrofuryl. A recent double-blind clinical study has in fact shown that administration of naftidrofuryl versus placebo leads to better exercise tolerance, with an increase in the maximum level and delay in ST segment shift (increase in the threshold of onset of ischaemia). The purpose of this study was therefore to evaluate, in an animal model (pig) of acute myocardial ischaemia (occlusion of the proximal section of the left anterior descending coronary artery), the action of serotonin, naftidrofuryl and a combination of both substances on the following parameters: 1) electrophysiological (sinus heart rate, ST segment shift, T-wave amplitude, duration of monophasic action potentials, intraventricular conduction time); 2) haemodynamic (systolic, diastolic and mean blood pressure, first derivative of rate of increase of left ventricular pressure with time: LV dP/dt max); and 3) biochemical (malonedialdehyde concentration as an index, cell peroxidation index, creatine phosphate and adenosine triphosphate). It was found that co-infusion of serotonin aggravated the myocardial ischemia and that naftidrofuryl exerted beneficial effects on the serotonin-mediated aggravation of myocardial ischaemia.

[Sudden death during anesthesia: human error, drug related or cardiac death?]. / Morts subites en cours d'anesthésie: erreur humaine, cause médicamenteuse, ou anomalie cardiaque occulte?

We carried out a retrospective analysis of 1500 forensic autopsies following sudden unexpected cardiac death. This analysis showed a group of 43 cases that could have been related to surgery and/or anaesthesia. Pathological examination revealed the existence of cardiac lesions in 40 cases: arrhythmogenic right ventricular cardiomyopathy (14 cases), coronary artery disease (9 cases), cardiomyopathy (8 cases), structural abnormalities of the His bundle (7 cases), mitral valve prolapse (1 case) and acute myocarditis (1 case). These disorders are compatible with a paroxysmal (rhythmic) phenomenon at the origin of the cardiac arrest. Identification of the cause of death in a patient who was presumed to be at low risk may provide major relief to the patient's family and the medical staff.

Unsuspected cardiac lesions associated with sudden unexpected perioperative death.

The retrospective analysis of 1700 forensic autopsies over 17 years (1981-97) following unexpected sudden cardiac death revealed a group of 50 cases that could have been related to surgery and/or anaesthesia. Patients were young with no history of cardiac disease. Surgery was performed for uncomplicated disorders, all classified as ASA 1. Cardiac arrest took place at induction of anaesthesia in 16% of cases, during surgery in 64% and at the end of surgery in 20%. Investigation and expertise reports ordered by the public prosecutor revealed none of the typical causes of death usually associated with surgery or anaesthesia. Pathological examination showed cardiac lesions in 47 cases: arrhythmogenic right ventricular cardiomyopathy in 18 cases, coronary artery disease in 10 cases, cardiomyopathy in eight cases, structural abnormalities of the His bundle in nine cases, mitral valve prolapse in one case, and acute myocarditis in one case. Identification of the cause of death of patients at low risk may provide major relief to the family of the patient and the medical staff.

Opposite change with ischaemia in the antifibrillatory effects of class I and class IV antiarrhythmic drugs resulting from the alteration in ion transmembrane exchanges related to depolarization.

It is known that class I antiarrhythmic drugs lose their antifibrillatory activity with severe ischaemia, whereas class IV antiarrhythmic drugs acquire such activity. Tachycardia, which is also a depolarizing factor, has recently been shown to give rise to an alteration of ion transmembrane exchanges which is particularly marked in the case of calcium. This leads one to wonder if the change in antifibrillatory activity of antiarrhythmic drugs caused by ischaemia depends on the same process. The change in antifibrillatory activity was studied in normal conditions ranging to those of severe ischaemia with a class I antiarrhythmic drug, flecainide (1.00 mg x kg(-1) plus 0.04 mg x kg(-1)x min(-1), a sodium channel blocker, and a class IV antiarrhythmic drug, verapamil (50 microg x kg(-1) plus 2 microg x kg(-1) x min(-1)), a calcium channel blocker. The experiments were performed in anaesthetized, open-chest pigs. The resulting blockade of each of these channels was assessed at the end of ischaemic periods of increasing duration (30, 60, 120, 180, 300, and 420 s) by determining the ventricular fibrillation threshold (VFT). VFT was determined by means of trains of diastolic stimuli of 100 ms duration delivered by a subepicardial electrode introduced into the myocardium (heart rate 180 beats per min). Ischaemia was induced by completely occluding the left anterior descending coronary artery. The monophasic action potential was recorded concurrently for the measurement of ventricular conduction time (VCT). The monophasic action potential duration (MAPD) varied with membrane polarization of the fibres. The blockade of sodium channels by flecainide, which normally raises VFT (7.0 +/- 0.4 to 13.8 +/- 0.8 mA, p < 0.001) and lengthens VCT (28 +/- 3 to 44 +/- 5 ms, p < 0.001), lost its effects in the course of ischaemia. This resulted in decreased counteraction of the ischaemia-induced fall of VFT and decreased aggravation of the ischaemia-induced lengthening of VCT. The blockade of calcium channels, which normally does not alter VFT (between 7.2 +/- 0.6 and 8.4 +/- 0.7 mA, n.s.) or VCT (between 30 +/- 2 and 34 +/- 3 ms, n.s.), slowed the ischaemia-induced fall of VFT. VFT required more time to reach 0 mA, thus delaying the onset of fibrillation. Membrane depolarization itself was opposed as the shortening of MAPD and the lengthening of VCT were also delayed. Consequently there is a progressive decrease in the role played by sodium channels during ischaemia in the rhythmic systolic depolarization of the ventricular fibres. This reduces or suppresses the ability of sodium channel blockers to act on excitability or conduction, and increases the role of calcium channel blockers in attenuating ischaemia-induced disorders.

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 delivery 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.

Efficacy of a beta-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.

[Cardiac accidents of locoregional anesthesia: experimental study of risk factors with bupivacaine]. / Accidents cardiaques de l'anesthésie locorégionale: étude expérimentale des facteurs de risque avec la bupivacaïne.

Cardiac disorders are observed when excessive plasma concentrations of local anaesthetics are reached, following for instance intravascular accidental injection for epidural anaesthesia or brachial plexus block. Bupivacaine particularly, which is one of the most used local anaesthetics, adversely affects intraventricular conduction and cardiac contractile strength from the 3.0-4.0 micrograms/ml blood levels. Depression of conduction is especially to be feared, for it can result in reentrant arrhythmias likely to degenerate into often fatal ventricular fibrillation. Such accidents may sometimes occur at far lower concentrations, subsequent to diffusion into systemic circulation from the injection site (0.4-1.2 micrograms/ml). These accidents were probably due to various factors which concomitantly intervene during the anaesthesia. We could identify a number of these factors by associating them to an intravenous infusion of bupivacaine (0.04 mg/kg/min after a loading dose of 1.00 mg/kg) in animals (dogs and pigs) under electrocardiographic monitoring, in which conduction time, monophasic action potential duration, effective refractory period and electrical fibrillation threshold were determined in the ventricular fibres. The electrophysiological changes due to bupivacaine may be enhanced by 1) dilution hyponatremia (115-110 mmol/l) induced by a short (5 min) intravenous 10 ml/kg/min infusion of hypotonic solution and/or hyperkalemia (7-8 mmol/l) induced by 0.05 mmol/kg/min infusion of potassium chloride; 2) the acceleration of cardiac contractions (180-210 beats/min) induced by ventricular pacing; 3) mild hypothermia (35-34 degrees C) induced by blood cooling in an extracorporeal circuit; 4) myocardial ischaemia induced by complete temporary occlusion of the left anterior descending coronary artery near its origin. The risk of cardiac accidents, possibly severe, is therefore enhanced by each of these factors capable of lowering the concentration required for their triggering and, of course, the combination of two or several of them. On the contrary, the knowledge of these factors should allow to prevent most of cardiac accidents of locoregional anaesthesia.

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.

Magnesium--a profibrillatory or antifibrillatory drug depending on plasma concentration, heart rate and myocardial perfusion.

BACKGROUND: The opinions on the efficacy of magnesium as an antiarrhythmic drug vary considerably. The action of magnesium on vulnerability to fibrillation was therefore investigated in anaesthetized, open-chest pigs under different conditions as regards plasma concentration, heart rate and myocardial perfusion. METHODS: Vulnerability to fibrillation was assessed by electrical fibrillation threshold (EFT), measured with 100-ms duration diastolic impulses. These stimuli were delivered to the heart normally perfused, at a usual (90 and 120 beats/min) or accelerated (180 beats/min) rate. Vulnerability to fibrillation was also assessed at the high rate (180 beats/min) in the heart made ischaemic by complete occlusion of the left anterior descending coronary artery near its origin. EFT was then measured at the end of occlusion periods which were of increasing duration (30, 60, 90, 120 s). Monophasic action potential (MAP) duration, intraventricular conduction time, left ventricular dP/dt max (LVdP/dt max) and mean blood pressure were concurrently measured. RESULTS: In the absence of ischaemia, 5 mumol.kg-1.min-1 magnesium i.v. infusion, which raised plasma concentration to 1.78 +/- 0.14 mmol/L, lowered EFT, measured at the rate of 116 beats/min, from 14.0 +/- 1.1 to 6.8 +/- 1.0 mA (P < 0.001), without significant variation of the other parameters. Administered as previously or in a markedly higher dose (400 mumol.kg-1 loading dose and 10 mumol.kg-1.min-1 infusion) which raised plasma concentration up to 4.84 +/- 0.52 mmol/L, magnesium significantly influenced neither EFT nor MAP duration, reduced by the high rate (180 beats/min) to 6.2-6.7 mA and 212-220 ms respectively. Under the same conditions, at the same 180 beats/min rate, ischaemia brings about a fall of EFT, from 6.9 down to nearly 0 mA, with occurrence of fibrillation, in approximately 120 s. Magnesium failed to slow this fall and to delay the onset of fibrillation. In contrast, within the minutes following the end of occlusion, magnesium increased EFT to a great extent (from 7.1 +/- 0.4 to 13.5 +/- 0.7 mA, P < 0.001), with a significant prolongation of MAP duration (212 +/- 6 to 234 +/- 8 ms, P < 0.01). CONCLUSION: Magnesium may develop profibrillatory or antifibrillatory effects depending on plasma concentration, heart rate and myocardial perfusion.

Calcium antagonists and prevention of ventricular fibrillation induced by transient or persistent ischemia.

Experimental studies have shown the limitation by calcium antagonists of the propensity to fibrillation secondary to the occlusion of a large coronary artery. However, this capacity, studied in the acute phase of infarction, is less obvious and still under debate. Ischemia was therefore produced in anesthetized, open-chest pigs by complete occlusion of the left anterior descending coronary artery according to two modes, either near its origin during brief but increasing periods (30, 60, 120, 180 s, etc) or half-way from this origin for a much longer time (60 min). The time course of vulnerability to fibrillation was monitored by ventricular fibrillation threshold (VFT), measured by trains of diastolic stimuli of 100 ms. Verapamil was administered in a 50 micrograms/kg dose followed by 2 micrograms/kg/min infusion. 1) In the case of brief proximal occlusions under pacing at a constant high rate (180 beats/min), verapamil slowed the decline of VFT from 6-8 mA to nearly 0 mA. VFT was 4.4 +/- 0.4 mA after 60 s ischemia, whereas it had already fallen to 1.8 +/- 0.3 mA (p < 0.001) in the absence of the drug. Accordingly, the onset of spontaneous fibrillation which depends on the decrease in VFT to about 0 mA was prolonged from 2-3 to 6-9 min. Bradycardia, concurrently produced by verapamil, is a factor which enhances these alterations. 2) In the case of a persistent midportion occlusion of the artery under sinus rate, fibrillations were similarly delayed by verapamil from 14-25 to 23-49 min after occlusion, but they were more numerous. VFT was lowered to critical values later, but also for a longer time. The period propitious to fibrillation was prolonged because the return of VFT to higher values reflecting hypoexcitability subsequent to the first cell injury was substantially delayed. Consequently, calcium antagonists should often prevent ventricular fibrillation when transient ischemia disappears before VFT falls to the vicinity of 0 mA. In contrast, a real benefit could not be expected from these drugs when ischemia is persistent since they then only delay fibrillations, the number of which is increased.

Ischaemia-induced loss or reversal of the effects of the class I antiarrhythmic drugs on vulnerability to fibrillation.

1. In the last decade, a number of clinical observations have questioned the efficacy of certain class I antiarrhythmic drugs against ischaemia-induced ventricular fibrillation. The effects of three drugs of this class, disopyramide (Ia), lignocaine (Ib) and flecainide (Ic) on the vulnerability to fibrillation during experimental ischaemia were investigated. 2. The study was carried out in anaesthetized, open-chest pigs (n = 8 for each of the drugs, in addition to the control group, n = 6). Vulnerability to fibrillation was evaluated by measuring electrical fibrillation threshold (EFT) by means of stepwise increased intensity of wide (100 ms) diastolic impulses applied to the ischaemic tissue at a 180 beats min-1 rate. Monophasic action potential (MAP) duration and conduction time in the ischaemic region were also measured. 3. EFT determinations were performed before and during periods of ischaemia induced by complete occlusion of the left anterior descending coronary artery near its origin. Ischaemic periods of increasing duration (30, 60, 90, 120, 150 s) were induced to determine the electrophysiological changes, of EFT especially, leading to fibrillation. 4. In the absence of ischaemia, all three drugs, administered by intravenous route (1 mg kg-1 plus 0.04 mg kg-1 min-1) increased EFT to a similar extent (from approximately 7 to 10 mA), despite a 25% prolongation of conduction time. 5. During ischaemia, none of the drugs prevented the fall in EFT towards 0 mA, resulting in spontaneous fibrillation. After 30 s of ischaemia, they no longer had any capacity for raising EFT and, after 60, 90 and 120 s of ischaemia, the decrease in EFT was exacerbated. This accelerated reduction in EFT shortened the time to onset of fibrillation (after 120 s of ischaemia, 62.5% of fibrillations with flecainide instead of 12.5 under control conditions, 75% instead of 25 with lignocaine and 50% instead of 25 with disopyramide). The reduction in MAP duration due to ischaemia was also significantly accelerated (at 60 s, 178 +/- 5 ms instead of 192 +/- 4 with flecainide, 175 +/- 3 ms instead of 194 +/- 5 with lignocaine and 180 +/- 5 ms instead of 196 +/- 3 with disopyramide) and the slowing of conduction was made worse (prolongation of conduction time by 70% instead of 50). 6. In conclusion, the antifibrillatory properties normally manifested by these drugs are first suppressed, then inverted by ischaemia, depending on oxygen debt varying with severity and duration of ischaemia.