Na+/H+ exchanger and reperfusion-induced ventricular arrhythmias in isolated perfused heart: possible role of amiloride

The roles of the Na⁺/H⁺ exchange system in the development and cessation of reperfusion induced ventricular arrhythmias were studied in the isolated perfused rat heart. The hearts were perfused in the working heart mode with modified Krebs Henseleit bicarbonate (KHB) buffer and whole heart ischemia was induced by a one-way ball valve with 330 beat/min pacing. Ischemia was continued for 15 min followed by 20 min of aerobic reperfusion (control). Amiloride (1.0mM), an inhibitor of the Na⁺/H⁺ exchange system, was added to the KHB buffer only during reperfusion (group B) or only during ischemic periods (group C). Electrocardiographic and hemodynamic parameters were monitored throughout the perfusion. Coronary effluent was collected through pulmonary artery cannulation and PO₂, PCO₂, HCO ₃ ^– and pH were measured by blood-gas analyzer.The incidence of reperfusion induced ventricular arrhythmias was 100%, 100% and 0% in control, group B and group C, respectively. The mean onset time of termination of reperfusion arrhythmias was significantly shorter in group B than in control. PCO₂ increased from 39.0±0.9 to 89.3±6.0 mmHg at the end of ischemia in control and from 40.6±0.4 to 60.5±5.8 in group C, the difference between groups was statistically significant. HCO ₃ ^– level decreased from 21.8±0.1 to 18.3±0.5 mmol/l in control, however, this decrease was significantly inhibited in group C (from 22.0±0.5 to 20.3±0.2). The increase in PCO₂ and the decrease in HCO ₃ ^– in group B were similar over time to those observed in control. The decrease in pH produced by ischemia was marked in control (from 7.35±0.01 to 6.92±0.04) and group B (from 7.34±0.01 to 6.94±0.02), whereas a decrease in pH was significantly prevented in group C (from 7.34±0.01 to 7.15±0.04). There were no significant differences in PCO₂, HCO ₃ ^– or pH among the three groups during reperfusion.These experiments provide evidence that amiloride significantly prevented the incidence of reperfusion arrhythmias when added only during ischemia and significantly terminated reperfusion arrhythmias when added only during reperfusion. Amiloride may prevent a decrease in pH, due to alterations in PCO₂ and/or HCO ₃ ^– . These changes in PCO₂ and HCO ₃ ^– might be indirectly influenced by inhibition of the Na⁺/H⁺ exchange system via Cl^–/HCO ₃ ^– exchange. The mechanism by which amiloride terminates reperfusion arrhythmias seems to involve electrophysiological effects which were not directly addressed in this experiment.     

Machine Learning Approach to Detect Cardiac Arrhythmias in ECG Signals: A Survey

Cardiac arrhythmia is a condition when the heart rate is irregular either the beat is too slow or too fast. It occurs due to improper electrical impulses that coordinates the heart beats. Sudden cardiac death may occurs due to some dangerous arrhythmias conditions. Hence the main objective of the electrocardiogram (ECG) analysis is to detect the life-threatening arrhythmias accurately for appropriate treatment in order to save life. Since the last decades, several methods were reported for automatic ECG beat classifications. In this work, we present a systematic review of the current state-of-the-art methods used to detect cardiac arrhythmia using on ECG signals. It includes the signal decomposition, feature extraction and machine learning approaches used for automatic detection and decision making process. The articles covers the pre-processing, detection of QRS complex, feature extraction and classification of ECG beats. Based on the past studies, it is understood that the automated approach using computer-aided decision making process is highly required for real-time detection of cardiac arrhythmias. The advantages and limitations of different methods are discussed and also the future scopes is highlighted in the process of effective detection of cardiac arrhythmias. This study could be beneficial for researchers to analyze the existing state-of-art techniques used in detection of arrhythmia conditions.     

Remodeling of Cell-Cell Junctions in Arrhythmogenic Cardiomyopathy

Abstract

Arrhythmogenic cardiomyopathy (AC) is a primary myocardial disorder characterized by a high incidence of ventricular arrhythmias often preceding the onset of ventricular remodeling and dysfunction. Approximately 50% of patients diagnosed with AC have one or more mutations in genes encoding desmosomal proteins, although non-desmosomal genes have also been associated with the disease. Increasing evidence implicates remodeling of intercalated disk proteins reflecting abnormal responses to mechanical load and aberrant cell signaling pathways in the pathogenesis of AC. This review summarizes recent advances in understanding disease mechanisms in AC that have come from studies of human myocardium and experimental models.     

Brain-heart interactions and cardiac ventricular arrhythmias

A wide range of evidence implicates the brain as playing a significant role in ventricular arrhythmias and sudden cardiac death. The mechanism is thought to involve the intermediary of the autonomic nervous system. Here we briefly consider possible mechanisms by which central neural processing may modulate the myocardial electrophysiology and hence the arrhythmia substrate.     

心源性猝死心电预测和综合防治研究进展

随着社会老龄化的进一步加剧,冠心痛、高血压、心肌病、恶性心律失常的发病率也成为导致人群中猝死率上升的重要诱发因素.对猝死发病机制的研究中,室性心动过速和室颤往往是导致病人发生猝死的最主要的终末事件.在这篇文章中我们通过12导联心电图(ECG)的心电学预测因子的研究,揭示心电学预测因子在预防心源性猝死中的临床应用价值.另一方面,如何能提高预防猝死的预测因子的敏感性和特异性,发现新的更有临床应用价值的心电学预测因子,更好的防治猝死对社会人群的危害,成为临床研究中不断探寻的答案.最后,我们将近年来对心源性猝死的防治措施及未来的发展方向做一简要的综述.     

Gender disparities in torsade de pointes ventricular tachycardia

Background Gender disparities in the incidence of torsade de pointes (TdP) ventricular tachycardia exist, but the mechanisms in humans are unresolved. We addressed this issue using a mathematical model of a human ventricular cell. MethodsWe implemented gender differences in the Priebe-Beuckelmann model cell by modifying the amplitudes of the L-type Ca²⁺ current (I_Ca,L), transient outward K₊ current (I_to), and rapid component of the delayed rectifier K₊current (I_Kr), according to experimental data from animal male and female hearts. Gender disparities in electrical heterogeneity between transmural layers (subepicardium, midmyocardium, subendocardium) were implemented by modifying various ion currents according to experimental data. ResultsAction potentials in female cells have longer durations and steeper duration versus frequency relationships than male cells. In the female cells, electrical heterogeneity between transmural layers is larger and the susceptibility to early afterdepolarisations is higher than in male cells. ConclusionGender-related differences in I_Ca,L, I_to, and I_Kr may explain the gender disparities in human cardiac electrophysiology. Female cells have an increased susceptibility to early afterdepolarisations following mild reductions in net repolarising forces. Combined with their greater electrical heterogeneity, this renders them more vulnerable to TdP. (Neth Heart J 2007;15:405-11.)     

T波峰-末间期对急性心肌梗死并发室性心律失常的预测价值

目的:探讨T波峰-末间期(Tp-Te间期)和Tp-Te间期离散度(Tp-Ted)对急性心肌梗死并发室性心律失常的预测价值。方法:选择我院2013年5月至2014年5月收治的140例确诊急性ST段抬高型心肌梗死(STEMI)患者,按照心律失常类型分为室性心动过速组,室性早搏组以及无室性心律失常组。分析并比较各组患者心电图Tp-Te间期及Tp-Ted的变化情况。结果:急性期FPG、Tp-Te、Tp-Ted高于恢复期,差异有统计学意义(P0.05);急性期与恢复期之间TG、CHOL、LDL-C、K+、Na+水平差异无统计学意义(P0.05)。无室性心律失常组与室性心动过速组及室性早搏组比较,Tp-Te和Tp-Ted更低,差异有统计学意义(P0.05);室性早搏组和室性心动过速组比较,Tp-Te和Tp-Ted更低,差异有统计学意义(P0.05)。结论:Tp-Te间期和Tp-Ted可用于区分急性心肌梗死患者室性心律失常类型。     

Tbx3, a transcriptional factor, involves in proliferation and osteogenic differentiation of human adipose stromal cells

Both, diabetes mellitus (DM) and hypercholesterolemia (HCH) are known as risk factors of ischemic heart disease, however, the effects of experimental DM, as well as of HCH alone, on ischemia/reperfusion-induced myocardial injury are not unequivocal. We have previously demonstrated an enhanced resistance to ischemia-induced arrhythmias in rat hearts in the acute phase of DM. Our objectives were thus to extend our knowledge on how DM in combination with HCH, a model that is relevant to diabetic patients with altered lipid metabolism, may affect the size of myocardial infarction and susceptibility to arrhythmias. A combination of streptozotocin (STZ; 80 mg/kg, i.p.) and the fat–cholesterol diet (1% cholesterol, 1% coconut oil; FCHD) was used as a double-disease model mimicking DM and HCH simultaneosly occurring in humans. Following 5 days after STZ injection and FCHD leading to increased blood glucose and cholesterol levels, anesthetized open-chest diabetic, diabetic–hypercholesterolemic (DM–HCH) and age-matched control rats were subjected to 6-min ischemia (occlusion of LAD coronary artery) followed by 10 reperfusion to test susceptibility to ventricular arrhythmias in the in vivo experiments and to 30-min ischemia and subsequent 2-h reperfusion for the evaluation of the infarct size (IS) in the Langendorff-perfused hearts. The incidence of the most life-threatening ventricular arrhythmia, ventricular fibrillation, was significantly increased in the DM–HCH rats as compared with non-diabetic control animals (100% vs. 50%; p<0.05). Likewise, arrhythmia severity score (AS) was significantly higher in the DM–HCH rats than in the controls (4.9±0.2 vs. 3.5±0.5; p<0.05), but was not increased in the diabetic animals (AS 3.7±0.9; p>0.05 vs. controls). Diabetic hearts exhibited a reduced IS (15.1±3.0% of the area at risk vs. 37.6±2.8% in the control hearts; p<0.05), however, a combination of DM and HCH increased the size of myocardial infarction to that observed in the controls. In conclusion, HCH abrogates enhanced resistance to ischemia-reperfusion injury in the diabetic rat heart.     

Taxol,a microtubule stabilizer,prevents ischemic ventricular arrhythmias in rats

Microtubule integrity is important in cardio‐protection, and microtubule disruption has been implicated in the response to ischemia in cardiac myocytes. However, the effects of Taxol, a common microtubule stabilizer, are still unknown in ischemic ventricular arrhythmias. The arrhythmia model was established in isolated rat hearts by regional ischemia, and myocardial infarction model by ischemia/reperfusion. Microtubule structure was immunohistochemically measured. The potential mechanisms were studied by measuring reactive oxygen species (ROS), activities of oxidative enzymes, intracellular calcium concentration ([Ca²⁺]_i) and Ca²⁺ transients by using fluorometric determination, spectrophotometric assays and Fura‐2‐AM and Fluo‐3‐AM, respectively. The expression and activity of sarcoplasmic reticulum Ca²⁺‐ATPase (SERCA2a) was also examined using real‐time polymerase chain reaction, Western blot and pyruvate/Nicotinamide adenine dinucleotide‐coupled reaction. Our data showed that Taxol (0.1, 0.3 and 1 μM) effectively reduced the number of ventricular premature beats and the incidence and duration of ventricular tachycardia. The infarct size was also significantly reduced by Taxol (1 μM). At the same time, Taxol preserved the microtubule structure, increased the activity of mitochondrial electron transport chain complexes I and III, reduced ROS levels, decreased the rise in [Ca²⁺]_i and preserved the amplitude and decay times of Ca²⁺ transients during ischemia. In addition, SERCA2a activity was preserved by Taxol during ischemia. In summary, Taxol prevents ischemic ventricular arrhythmias likely through ameliorating abnormal calcium homeostasis and decreasing the level of ROS. This study presents evidence that Taxol may be a potential novel therapy for ischemic ventricular arrhythmias.