Specificity of autonomic influences on cardiac responses during myocardial ischemia.

A possible role of the autonomic nervous system in the left ventricular response to acute regional myocardial ischemia was sought in conscious dogs instrumented for measurement of left ventricular pressure, internal diameter, and aortic flow. Ischemia produced by occluding the left circumflex coronary artery caused tachycardia and reduced contractility. Changes during control occlusions were compared with those during occlusion.s after beta-adrenergic blockade, parasympathetic blockade, and combined sympathetic and parasymphatetic blockade. Beta-blockade did reduce the tachycardia and slightly reduced left ventricular diameter changes in response to coronary occlusion. Results obtained in animals following surgical cardiac sympathectomy indicated reduced tachycardia and no effects on other parameters. The principal effect of parasympathetic blockade was to augment the increase in end diastolic diameter during occlusion Right atrial pacing indicated this change was due to higher initial heart rates. Combined parasympathetic and sympathetic blockade did not alter inotropic responses to coronary occlusion. Results indicated that inotropic support due to changes in activity in autonomic nerves is not increased during acute occlusion of the left circumflex coronary artery.     

Met-enkephalin levels during PTCA-induced myocardial ischemia.

Met-enkephalin (Met-enk) has been demonstrated to modulate myocardial-ischemia mechanisms via the opioid receptors, but no studies are now available on Met-enk levels in the coronary circulation.In this experience Met-enk levels were evaluated in aortic root and in coronary sinus at baseline (T0), during PTCA induced transient ischemia (T1) and during reperfusion (T2). No significant differences were found at any time. Thus, it appears that there is no Met-enk extraction from the coronary circulation during provoked myocardial ischemia and no Met-enk release from the ischemic heart.     

ECG-synchronized thoracic vest inflation during autonomic blockade, myocardial ischemia, or cardiac arrest.

To evaluate, in the absence of lung inflation, the cardiovascular effects of single and repetitive pleural pressure increments induced by thoracic vest inflations and timed to occur during specific portions of the cardiac cycle, seven chronically instrumented dogs were studied. Reflexes and left ventricular (LV) performance were varied by autonomic blockade, circumflex coronary occlusion (with and without beta-blockade), or cardiac arrest. Single late systolic, but not early systolic, vest inflations significantly increased LV stroke volume both before (+12.4%) and after myocardial depression by coronary occlusion+beta-blockade (+18.5%) when performed after a period of apnea to control preload and rate. During vest inflations, LV and aortic pressures increased to a greater degree than esophageal pressure (by 51 vs. 39 mmHg, P = 0.0001). Lung inflations (26 trials in 3 dogs) during early or late systole failed to increase stroke volume, despite peak esophageal pressures of 11-26 mmHg. With autonomic reflexes intact, repetitive vest inflations coupled to early systole, late systole, or diastole induced a large (40%) but unspecific systemic flow increase. In contrast, during autonomic blockade, flow increased slightly (7.5%, P < 0.05) with late systolic compared with diastolic inflations but not relative to baseline. During coronary occlusion (with or without beta-blockade), no cycle-specific differences were seen, whereas matched vest inflations during cardiac arrest generated 20-30% of normal systemic flow. Thus only single late systolic thoracic vest inflations associated with large increments in pleural pressure increased LV emptying, presumably by decreasing LV afterload and/or focal cardiac compression. However, during myocardial ischemia and depression, coupling of vest inflation to specific parts of the cardiac cycle revealed no hemodynamic improvement, suggesting that benefits of this circulatory assist method, if any, are minor and may be restricted to conditions of cardiac arrest.     

Effect of electrostimulation of the dorsolateral funiculus of the spinal cord on changes in the cardiac rhythm in acute myocardial ischemia

The experiments were carried out on inbred white male rats. Cardiac rhythm changes revealed in acute myocardial ischemia under conditions of electrostimulation (ES) of descending sympathicoinhibitory pathways, constituting part of spinal dorsolateral funiculi (DLF) were studied. 10-min stimulation of DLF, started immediately after ligation of the left coronary artery, checked the development of severe cardiac arrhythmia, or considerably weakened the already existing one. The data obtained substantiate the assumption that the onset of cardiac arrhythmia in acute ischemia is associated with the involvement of sympathic preganglionic neurons into the pathologic system, which may be suppressed by the activation of the functionally opposite systems.     

Spectral analysis of the cardiac rhythm of fishes

Spectral analysis of the rhythmograms in the cod Gadus morhua callarias, plaice Pleuronectes platessa, herring Clupea harengus membras and trout Salmo gairdneri revealed complex wave structure of their cardiac rhythm. In all the species investigated, slow (0.01-0.06 Hz), intermediate (0.06-0.25 Hz) and fast (0.25-0.5 Hz) waves were recorded. It is suggested that the wave structure of cardiac rhythm reflects rather complicated relationships between functional systems regulating cardiac activity.     

The transient nature of myocardial ischemia during partial occlusion of the coronary artery in waking immobilized rabbits

The radioactive microsphere technique was used to study mechanisms of disappearance of myocardial ischemia during partial occlusion of the left descending anterior coronary artery with implanted device in conscious immobilized rabbits. Microspheres (15 microns, NEN, USA) were injected before occlusion, immediately after ST-segment elevation and after disappearance of ST-segment shift. In ischemic region blood flow dropped by 45% (p less than 0.05) and mean blood pressure decreased by 12% (P less than 0.05) on the 1st minute of coronary occlusion. 8-15 min later ST-segment elevation disappeared and the blood flow in ischemic region became higher than control level (on the average by 35%). It is suggested that ischemia is abolished mainly by dilatation of distal coronary vessels, than by activation of collateral blood flow.     

The sequelae of transient myocardial ischemia in chronic experiments]

Reversible short-term and local myocardial ischemia in non-anaesthetized dogs involved a functional (if changing the activity of CPK) and morphologic aftereffect. At the same time it is possible to find some mechanisms of compensation (in chronic experiment).     

Actin is oxidized during myocardial ischemia

Exposure of isolated rat hearts to 30 min global ischemia followed by 60 min reperfusion resulted in a significant 80% increase (p <.05) in actin content of carbonyl groups, which was associated with significant depression (p <.05) of postischemic contractile function. This result supports the hypothesis that one mechanism of postischemic contractile dysfunction may be oxidation of contractile proteins.     

Sulphinpyrazone in acute myocardial infarction: studies on cardiac rhythm and renal function.

Ninety-eight patients with acute myocardial infarction were randomly allocated to receive sulphinpyrazone 200 mg four times daily or placebo on admission to a coronary care unit. Twenty-four-hour electrocardiogram tape recordings showed no significant reduction in serious arrhythmias in the sulphinpyrazone-treated group. In addition to the expected all in serum urate concentration, patients taking sulphinpyrazone showed a persistent increase in their serum urea and creatinine concentrations when compared with those in the placebo groups (p < 0.05 and p < 0.01 respectively). These differences could not be accounted for by differences in the extent and severity of the infarction between the two groups. These results suggest that sulphinpyrazone has no discernible antiarrhythmic effect in acute myocardial infarction.     

Modulation of electron transport protects cardiac mitochondria and decreases myocardial injury during ischemia and reperfusion

Mitochondria are increasingly recognized as lynchpins in the evolution of cardiac injury during ischemia and reperfusion. This review addresses the emerging concept that modulation of mitochondrial respiration during and immediately following an episode of ischemia can attenuate the extent of myocardial injury. The blockade of electron transport and the partial uncoupling of respiration are two mechanisms whereby manipulation of mitochondrial metabolism during ischemia decreases cardiac injury. Although protection by inhibition of electron transport or uncoupling of respiration initially appears to be counterintuitive, the continuation of mitochondrial oxidative phosphorylation in the pathological milieu of ischemia generates reactive oxygen species, mitochondrial calcium overload, and the release of cytochrome c. The initial target of these deleterious mitochondrial-driven processes is the mitochondria themselves. Consequences to the cardiomyocyte, in turn, include oxidative damage, the onset of mitochondrial permeability transition, and activation of apoptotic cascades, all favoring cardiomyocyte death. Ischemia-induced mitochondrial damage carried forward into reperfusion further amplifies these mechanisms of mitochondrial-driven myocyte injury. Interruption of mitochondrial respiration during early reperfusion by pharmacologic blockade of electron transport or even recurrent hypoxia or brief ischemia paradoxically decreases cardiac injury. It increasingly appears that the cardioprotective paradigms of ischemic preconditioning and postconditioning utilize modulation of mitochondrial oxidative metabolism as a key effector mechanism. The initially counterintuitive approach to inhibit mitochondrial respiration provides a new cardioprotective paradigm to decrease cellular injury during both ischemia and reperfusion. cardiolipin; cytochrome c; complex I; cytochrome oxidase     

Experimental investigations in prolonged myocardial ischaemia. Note I. Biology of the myocardial fiber after transient myocardial fiber after transient myocardial ischaemia

The first ten days' evolution of post-ischaemic lesions of the premonitory or angina pectoris syndrome type was experimentally studied by the challenge of a short-term (10 and 15 min) ischaemia, of an adaptation to ischaemia and an adaptation followed by prolonged ischaemia (20 and 35 min). Worthy of note was the persistence of reversible lesions after short-term ischaemia and adaptation, and the progressive evolution towards cytolysis and cicatrization of some pancicellular foci after adaptation followed by prolonged ischaemia. The role of mitochondrial lesions, of lysosomal hydrolases, the inefficiency of renewed circulation, as well as problems of diagnosis are discussed.     

Nuclear-mitochondrial cross-talk in global myocardial ischemia. A time-course analysis

There is an ongoing concern regarding the biocompatibility of nanoparticles with sizes less than 100 nm as compared to larger particles of the same nominal substance. In this study, we investigated the toxic properties of magnetite stabilized with polyacrylate sodium. The magnetite was characterized by X-ray powder diffraction analysis, and the mean particle diameter was calculated using the Scherrer formula and was found to be 9.3 nm. In this study, we treated lung epithelial cells with different concentrations of magnetite and investigated their effects on oxidative stress and cell proliferation. Our data showed an inhibition of cell proliferation in magnetite-treated cells with a significant dose-dependent activation and induction of reactive oxygen species. Also, we observed a depletion of antioxidants, glutathione, and superoxide dismutase, respectively, as compared with control cells. In addition, apoptotic-related protease/enzyme such as caspase-3 and -8 activities, were increased in a dose-dependent manner with corresponding increased levels of DNA fragmentation in magnetite-treated cells compared to than control cells. Together, the present study reveals that magnetite exposure induces oxidative stress and depletes antioxidant levels in the cells to stimulate apoptotic pathway for cell death.     

Persistence of gap junction communication during myocardial ischemia

During myocardial ischemia, severe ATP depletion induces rigor contracture followed by intracellular Ca2+ concentration ([Ca2+]i) rise and progressive impairment of gap junction (GJ)-mediated electrical coupling. Our objective was to investigate whether chemical coupling through GJ allows propagation of rigor in cardiomyocytes and whether it persists after rigor development. In end-to-end connected adult rat cardiomyocytes submitted to simulated ischemia the interval between rigor onset was 3.7 +/- 0.7 s, and subsequent [Ca2+]i rise was virtually identical in both cells, whereas in nonconnected cell pairs the interval was 71 +/- 12 s and the rate of [Ca2+]i rise was highly variable. The GJ blocker 18alpha-glycyrrhetinic acid increased the interval between rigor onset and the differences in [Ca(2+)]i between connected cells. Transfer of Lucifer yellow demonstrated GJ permeability 10 min after rigor onset in connected cell pairs, and 30 min after rigor onset in isolated rat hearts submitted to nonflow ischemia but was abolished after 2 h of ischemia. GJ-mediated communication allows propagation of rigor in ischemic myocytes and persists after rigor development despite acidosis and increased [Ca2+]i.     

Inhibition of eicosanoid-mediated coronary constriction during myocardial ischemia

Thromboxane A2 and cysteinyl leukotrienes are highly effective microvessel constrictors in normally perfused myocardium. Their release during acute coronary thrombosis might augment myocardial underperfusion. The constrictor action of these substances could be modified substantially, however, by concomitant myocardial ischemia. We compared the effects of the two eicosanoid constrictors in normally perfused and ischemic myocardium of 24 open-chest, pentobarbital-anesthetized pigs. Left anterior descending coronary flow was measured after intracoronary bolus injections of the stable thromboxane A2 analog U46619 (1-10 micrograms) or leukotriene D4 (LTD4, 1-10 micrograms). Each dose was given before and during myocardial ischemia induced by a snare adjusted to produce 63 +/- 2% decrease in coronary flow for 10 min. Marked dose-independent inhibition of eicosanoid-induced coronary flow decrease occurred during ischemia. With 10 micrograms U46619, coronary flow decrease in the unoccluded state (25 +/- 2 from 55 +/- 4 ml/min pretreatment baseline) was virtually eliminated during snare occlusion (1 +/- 1 from 21 +/- 3 ml/min pretreatment baseline, P less than 0.001). Similar results occurred with LTD4. Distal coronary pressure during ischemia indicated a lack of microvessel responsiveness to the eicosanoids rather than a buffering of resistance change by the snare. U46619 and LTD4 did induce transient, small reductions in regional shortening fraction during ischemia. Our data suggest that eicosanoid-induced constriction of myocardial resistance vessels is not a likely complication of acute coronary thrombosis. However, eicosanoids could depress residual contractility in moderately ischemic regions.