Effects of spironolactone on atrial structural remodelling in a canine model of atrial fibrillation produced by prolonged atrial pacing

Background and purpose:

Suppression of the renin-angiotensin-aldosterone system can prevent atrial fibrillation (AF) by attenuating atrial structural remodelling but the role of aldosterone in AF prevention has not been investigated thoroughly. We explored whether the aldosterone antagonist, spironolactone, could improve atrial structural remodelling in long-term rapid pacing-induced AF.

Experimental approach:

Three groups of dogs were used, sham-operated, control and spironolactone-treated groups. Dogs in the control and spironolactone groups had right atrial pacing for 6 weeks. The spironolactone group was given spironolactone 1 week before and during the atrial pacing. After 6 weeks of pacing, atrial structural and functional changes were assessed by echocardiography, haemodynamic parameters by cardiac catheterization, histopathological changes by light and electron microscopy and cardiomyocyte apoptosis by TUNEL. Caspase-3, Bcl-2, bax, calpain I, calpastatin, matrix metalloproteinase (MMP)-9 and tissue inhibitors of metalloproteinase (TIMP)-1 were analysed by immunohistochemistry and Western blotting. The inducibility and duration of AF were measured by atrial burst pacing.

Key results:

After atrial pacing, the proportion of TUNEL positive cells, myolysis, atrial fibrosis and dilatation were all significantly increased and these changes were inhibited by spironolactone. Spironolactone treatment reversed the increased expression of caspase-3, bax, calpain I and MMP-9 and the decreased level of Bcl-2, calpastatin and TIMP-1, induced by chronic atrial pacing. Also spironolactone prevented the increased inducibility and duration of AF, induced by tachypacing.

Conclusions and implications:

Treatment with spironolactone prevented myocardial apoptosis, myolysis, atrial fibrosis and dilatation, suggesting a possible beneficial effect of aldosterone antagonism on atrial structural remodelling in AF.This article is commented on by Lendeckel et al., pp. 1581–1583 of this issue. To view this commentary visit http://dx.doi.org/10.1111/j.1476-5381.2010.00675.x     

A multiple ion channel blocker, NIP-142, for the treatment of atrial fibrillation

Atrial fibrillation (AF) is one of the most frequent cardiac arrhythmia and is associated with increased cardiovascular morbidity and mortality, and the risk of stroke. Although currently available antiarrhythmic drugs are moderately effective in restoring normal sinus rhythm in patients with AF, excessive delay of ventricular repolarization by these agents may be associated with increased risk of proarrhythmia. Therefore, selective blockers of cardiac ion channel(s) that are exclusively present in the atria are highly desirable. NIP-142 is a novel benzopyrane derivative, which blocks potassium, calcium, and sodium channels and shows atrial specific action potential duration prolongation. NIP-142 preferentially blocks the ultrarapid delayed rectifier potassium current (I Kur) and the acetylcholine-activated potassium current (I KACh). Since I Kur and I KACh have been shown to be expressed more abundantly in the atrial than in the ventricular myocardium, the atrial-specific repolarization prolonging effect of NIP-142 is considered to be due to the blockade of these potassium currents. In canine models, NIP-142 was shown to terminate the microreentry type AF induced by vagal nerve stimulation and the macroreentry type atrial flutter induced by an intercaval crush. These effects of NIP-142 have been attributed to the prolongation of atrial effective refractory period (ERP), because this compound prolonged atrial ERP without affecting intraatrial and interatrial conduction times in these models. The ERP prolongation by NIP-142 was greater in the atrium than in the ventricle. NIP-142 also terminated the focal activity type AF induced by aconitine. In addition, NIP-142 reversed the atrial ERP shortening and the loss of rate adaptation induced by short-term rapid atrial pacing in anesthetized dogs. Thus, although clinical trials are required to provide evidence for its efficacy and safety, the novel multiple ion channel blocker, NIP-142, appears to be a useful agent for the treatment of several types of AF with a low risk of proarrhythmic activity.     

典型房扑射频消融术后部分患者发生房颤的危险因素分析

目的 分析典型房扑射频消融术后部分患者发生房颤的危险因素。方法 选择2015年2月至2018年2月六安市人民医院体表心电图提示典型房扑、电生理检查均证实为三尖瓣环峡部依赖性房扑并成功给予三尖瓣峡部线性消融（CTIA）手术的患者68例,随访6～34个月。根据术后随访是否发生房颤分为两组,其中发生房颤组23例,未发生房颤组45例,比较两组患者年龄、基础疾病、P波宽度及离散度、左房内径（LAD）、左室舒张末内径（LVEDD）、左室射血分数（LVEF）及口服药物的差异。结果 两组患者的P波宽度、P波离散度、LAD、LVEDD、LVEF进行比较,差异有统计学意义（P<0.05）。logistic回归分析显示,LAD、P波宽度及离散度是典型房扑射频消融术后发生房颤的独立危险因素。结论 LAD、P波宽度及离散度是预测典型房扑射频消融术后发生房颤的重要指标。     

Effects of pentisomide and E-4031 on canine atrial flutter due to reentry: a comparative study with disopyramide and propafenone.

Effects of new antiarrhythmic drugs, pentisomide [3.5 +/- 0.5 mg/kg intravenously (i.v.) n = 8], and E-4031 (5.6 +/- 1.0 micrograms/kg, n = 8), a class III drug, on atrial flutter (AF) caused by reentry were compared with those of disopyramide (1.6 +/- 0.2 mg/kg, n = 8) and propafenone (2.2 +/- 0.2 mg/kg, n = 8). AF was induced with burst atrial pacing after we made an intercaval crush in anesthetized, open-chest dogs. Termination of AF did not differ among test drugs (8 of 8 with disopyramide, 7 of 8 with propafenone, 6 of 8 with pentisomide, and 8 of 8 with E-4031). Cycle length (CL) of AF was prolonged more with propafenone (57 +/- 10%) and pentisomide (41 +/- 5%) than with E-4031 (12 +/- 3%, p less than 0.05). This was also true for increase in interatrial conduction time determined at a pacing CL of 150 ms. Increase in atrial effective refractory period (ERP) determined at a basic pacing CL of 300 ms did not differ among test drugs. Changes in CL of AF correlated significantly with those in interatrial conduction time (r = 0.84, p less than 0.001), but not with those of ERP (r = 0.10, NS). Reinitiation of AF was significantly greater in propafenone (7 of 7) and pentisomide (5 of 6) groups than in disopyramide (1 of 8) and E-4031 (0 of 8) groups (p less than 0.001). Pentisomide and E-4031 were effective in terminating canine AF due to reentry, as were disopyramide and propafenone. Reinitiation of AF was greater in dogs treated with antiarrhythmic drugs that had more prominent effects on conduction time than on ERP.     

Relation of interleukin-6 and C-reactive protein levels to sinus maintenance after pharmacological cardioversion in persistent atrial fibrillation

OBJECT: The aim of this study was to investigate whether interleukin-6 (IL-6) and C-reactive protein (CRP) have significant relation to sinus maintenance after pharmacological conversion of long-lasting atrial fibrillation (AF) with respect to use of renin-angiotensin-aldosterone system (RAS) inhibitors. METHODS: We studied 35 consecutive patients with AF lasting > or =1 month who had successful pharmacological cardioversion with bepridil alone or in combination with aprindine. The IL-6 and CRP levels in plasma were measured after pharmacological restoration of sinus rhythm. RESULTS: During the 1-year follow-up period, sinus rhythm was maintained in 20 patients (Group I), and the other 15 patients had recurrence of AF (Group II). Both plasma levels of IL-6 and CRP were significantly lower in Group I than in Group II (IL-6: 1.19 +/- 0.51 versus 1.84 +/- 0.66 ng/L, P < 0.005; CRP: 0.59 +/- 0.40 versus 1.24 +/- 0.79 mg/L, P < 0.005). The use of RAS inhibitors and left atrial dimension and the left ventricular ejection fraction showed no differences between the 2 groups. There was significant positive correlation between levels of IL-6 and CRP. CONCLUSION: In long-lasting persistent AF, lower levels of IL-6 and CRP appear to be associated with maintenance of sinus rhythm after pharmacological cardioversion irrespective of the use of RAS inhibitors. Further studies are needed to clarify the role of RAS inhibitors.     

右美托咪定对快速心房起搏后兔心房电生理学特性及Cx43 Cx40表达的影响

目的 探讨右美托咪定对快速心房起搏后兔心房电生理学特性及Cx43、Cx40表达的影响。方法 选择成年雄兔24只,随机分为对照组（C组）、快速心房起搏组（RAP组）与快速心房起搏+右美托咪定灌流组（RAP+DEX组）,每组8只。制备Langendorff离体心脏灌注模型,通过快速心房起搏构建房颤模型。分别检测3组心房90%单相动作电位复极时程（MAPD₉₀）、心房有效不应期（ERP）、ERP与MAPD₉₀比值（ERP/MAPD₉₀）、房颤诱发率及持续时间,取心房组织,采用Western-bolt法和免疫荧光法检测Cx43、Cx40的蛋白含量和分布。结果 T₁~T₃时,3组MAPD₉₀比较,差异有统计学意义（P<0.05）。RAP组MAPD₉₀随时间的推移有逐渐下降趋势（P<0.05）,不同的处理方式和时间对MAPD₉₀有交互作用（P<0.05）。T₃时,RAP组ERP、ERP/MAPD₉₀、Cx43和Cx40蛋白含量均低于C组和RAP+DEX组,房颤诱发率高于C组和RAP+DEX组,差异有统计学意义（P<0.05）。3组房颤持续时间比较,差异无统计学意义（P>0.05）。电镜下,RAP组Cx43和Cx40分布不规律且侧面分布增多,而C组和RAP+DEX组Cx43和Cx40分布较规律且主要集中在两端。结论 右美托咪定可抑制房颤时的心房电重构,降低房颤的易感性,其机制可能与其抑制Cx43、Cx40的表达下调和再分布有关。     

n-3 (omega-3) polyunsaturated fatty acids prevent acute atrial electrophysiological remodeling

BACKGROUND AND PURPOSE: Recent reports suggest that n-3 (omega-3) polyunsaturated fatty acids (PUFAs) may reduce atrial fibrillation (AF). Reduction of the atrial effective refractory period (ERP) is believed to be an important early remodeling event that favors the development and perpetuation of AF. We hypothesized that n-3 PUFAs would attenuate early atrial electrophysiolgical remodeling in a canine model of acute atrial tachypacing. EXPERIMENTAL APPROACH: Adult dogs of either sex received n-3 PUFAs (n=6), n-6 PUFAs (n=6), or saline (n=6) infused over 1 h. After a stable ERP was established, treatment was initiated concurrently with 6 h of rapid atrial pacing (400 b.p.m.). Serial right atrial ERPs were measured during rapid atrial pacing, and induction of atrial tachyarrhythmias was attempted at the conclusion of each study. KEY RESULTS: There was no change in P wave duration or in the PQ, QRS, QT or QTc intervals in any of the treatment groups. N-3 PUFA treatment significantly reduced the shortening of atrial ERP, compared to both control groups (P<0.05). In separate experiments, the same n-3 PUFA infusion was given to dogs remaining in normal sinus rhythm. During sinus rhythm, n-3 PUFA infusion did not alter any electrocardiogram (ECG) parameter or the atrial ERP. CONCLUSIONS AND IMPLICATIONS: We conclude that acute n-3 PUFA treatment prevents acute atrial electrophysiological remodeling during high rate activity, which may minimize the self-perpetuation of AF.     

Candesartan prevents myocardial fibrosis during progression of congestive heart failure

BACKGROUND: The goal of this study was to determine whether an Angiotensin II receptor antagonist, candesartan, prevents myocardial fibrosis more effectively than enalapril in animals with a non-ACE pathway during the progression of congestive heart failure (CHF). METHODS AND RESULTS: Dogs were randomly assigned to one of four groups: (1) rapid ventricular pacing (240 bpm); (2) concomitant candesartan cilexetil (1.5 mg/kg/d) and rapid pacing; (3) concomitant enalapril (1.9 mg/kg/d) and rapid pacing; (4) sham-operated control. The expression of collagen type I & III mRNA and the collagen volume fraction, which were significantly increased in the pacing-only group, were suppressed by both treatments; it was lower in the candesartan than the enalapril group. Although there were no differences in the LV stiffness coefficient (beta) among all pacing groups, the absolute changes in beta from the control values were smaller in the candesartan group, but not the enalapril group, compared with the rapid-pacing-only group. CONCLUSIONS: The present study demonstrates that in animals with a non-ACE pathway, candesartan suppressed myocardial fibrosis during the progression of CHF in comparison with enalapril. Furthermore, candesartan prevented an increase in LV stiffness. These findings imply potential clinical applications for candesartan in the management of CHF to prevent myocardial fibrosis. Further prospective evaluation and clinical study will be necessary before deciding on the net benefits of candesartan in comparison to enalapril.     

Differential effects of dofetilide, amiodarone, and class Ic drugs on left and right atrial refractoriness and left atrial vulnerability in pigs

OBJECTIVES: Antiarrhythmic drugs have been shown to prolong right atrial refractoriness while data on the left atrium are not available. In pigs we have observed shorter effective refractory periods (ERP) of the left compared with the right atrium associated with a much higher left atrial vulnerability for tachyarrhythmias. Since this could suggest a different distribution of repolarizing ion channels in left and right atrium, we investigated whether antiarrhythmic drugs blocking different ion channels have a differential effect on left and right atrial ERP and left atrial vulnerability. METHODS: In pentobarbital-anesthetized pigs (n=40) we measured and compared ERPs in both atria before and after different drugs with the S1-S2 extrastimulus method at three basic cycle lengths (BCL) and assessed the inducibility of atrial fibrillation/flutter (AF/AFL) by the premature S2 stimulus. RESULTS: At the three BCL tested (240/300/400 ms) baseline ERPs were shorter in left vs. right atrium (112+/-2/124+/-2/129+/-2 ms vs. 147+/-2/163+/-2/167+/-2 ms, P<0.001). Mostly non-sustained AF/AFL induced by the S2 extrastimulus was very frequent in the left (68%) and nearly absent in the right atrium (3%). Only amiodarone, 5 mg/kg i.v., which showed a balanced increase of left and right atrial ERP (29+/-5/33+/-4/35+/-3% vs. 30+/-5/35+/-5/42+/-7%), decreased the inducibility of AF/AFL significantly (-72%, P<0.01). Dofetilide, 10 microg/kg i.v., had a stronger effect on right than left atrial ERP (36+/-4/39+/-5/46+/-10% vs. 23+/-2/22+/-7/22+/-5%, P<0.05), while flecainide, 1 mg/kg i.v., prolonged left more than right atrial ERP (58+/-15/36+/-7/40+/-7% vs. 26+/-5/24+/-5/21+/-4%, P<0.05) similar to 1 mg/ kg of propafenone (46+/-5/45+/-7/32+/-10% vs. 17+/-4/21+/-5/ 25+/-8%, P<0.05). CONCLUSION: The shorter refractoriness of the left compared with the right atrium observed in pigs was associated with a high left atrial vulnerability for tachyarrhythmias, which was reduced only by amiodarone showing a balanced increase of left and right atrial ERP. Dofetilide was stronger on right atrial ERP, flecainide and propafenone on left atrial ERP. These differences suggest a differential distribution of repolarizing ion channels between left and right atrium with possible relevance for the antiarrhythmic efficacy of drugs.     

高频刺激右心耳引起家兔慢性心房颤动

目的 探讨以高频率起搏刺激右心耳建立家兔慢性心房颤动模型的方法.方法 20只家兔随机分为实验组及对照组,对照组为假手术组.植入起搏电极但不起搏;实验组10只家兔予开胸植入双极电极并予以(800次/min)刺激右心耳30d,4h/d,术后定期监测起搏、心房颤动的发生情况,同时测定起搏前及房颤发生后心房有效不应期(AERP)的变化.结果 实验组均完成了实验,术后第7d,7只(70%),兔发生了房颤,2周时共有8只(80%)发生了房颤并能稳定维持(与对照组比较,P<0.01),30 d时仍示房颤,其余2只兔至30d时仍呈起搏心律;对照组则未发生任何心律失常情况.AERP缩短,AERP频率适应不良,与基础状态相比有显著意义.结论 长期高频率起搏刺激家兔右心耳是建立慢性房颤模型的有效方法.     

A dual model for cardiac arrhythmias: coexistence of re-entry and abnormal automaticity and effects of antiarrhythmic agents.

1. We have developed a dual model for arrhythmia anaesthetized dogs. The model consists of an inducible re-entrant atrial tachycardia and spontaneous ventricular ectopies in the same heart. 2. The model for re-entrant atrial tachycardia was created by crushing the right atrium longitudinally in the intercaval region and transversely in the front free wall parallel to the atrioventricular groove. Ventricular abnormal automaticity was produced by prior (20 approximately 24 h) left anterior descending coronary artery occlusion. The ventricular arrhythmia was partially suppressed during rapid pacing-induced atrial tachycardia and resumed after atrial re-entry was terminated. 3. Mapping experiments indicate that the atrial tachycardia was due to circus movement occurring in the tissue around the tricuspid ring. This re-entrant circuit was identical to that induced in the model created by the incision method. 4. Clofilium (0.75 mg kg-1, n = 5) increased the cycle length of atrial re-entry by 14 +/- 4% from 139 +/- 12 to 159 +/- 18 ms (P less than 0.05). Flecainide (1.8 +/- 0.9 mg kg-1, n = 5) prolonged the cycle length of the tachycardia by 114 +/- 57% from 158 +/- 11 to 332 +/- 66 ms (P less than 0.05). 5. Both drugs terminated the atrial arrhythmia, but re-entry could be reinduced only in flecainide-treated dogs. Flecainide reduced ventricular ectopies by 89 +/- 19%, whereas clofilium did not change ventricular abnormal automaticity or maximum pacing cycle length that is necessary to overdrive the ventricle fully.(ABSTRACT TRUNCATED AT 250 WORDS)     

Electrophysiological and antiarrhythmic effects of the novel I(Kur) channel blockers,S9947 and S20951, on left vs. right pig atrium in vivo in comparison with the I(Kr) blockers dofetilide,azimilide, d,l-sotalol and ibutilide

Inhibition of the cardiac Kv1.5 channel, the molecular base for the human cardiac ultrarapid delayed rectifier potassium current (I(Kur)), is considered a new promising atrial selective antiarrhythmic concept since this channel is presumed to contribute to atrial but not ventricular repolarization in the human heart. In a previous study in pigs we found clear baseline differences in refractoriness between left and right atrium with shorter effective refractory periods (ERPs) of the left atrium associated with a high left atrial vulnerability for tachyarrhythmias. In this newly established model we compared atrial and ventricular effects of two novel I(Kur) blockers, S9947 and S20951, with the I(Kr) blockers dofetilide, azimilide, ibutilide and d,l-sotalol. In pentobarbital anesthetized pigs (n=45) we determined ERPs in the free walls of both atria with the S1-S2-stimulus method at three basic cycle lengths (BCL 240/300/400 ms) and QTc-intervals. The incidence of atrial tachyarrhythmias triggered by the S2-extrastimulus of the left atrium was evaluated (referred to as left atrial vulnerability). In contrast to I(Kr) blockade, I(Kur) blockade had no effect on the QT-interval, but prolonged the atrial ERP. The I(Kur) blockers were significantly stronger on left atrial ERP, I(Kr) blockers on right atrial ERP (P<0.05 for all compounds tested). At 240 ms BCL the I(Kur) blocker S20951, 3 mg/kg, prolonged left vs. right atrial ERP by 28+/-5 ms vs. 12+/-3 ms and S9947, 3 mg/kg, by 45+/-7 ms vs. 19+/-6 ms. By contrast the effect of dofetilide, 10 microg/kg, was stronger on the right than left atrium (47+/-6 ms vs. 25+/-2 ms), a profile also found with azimilide (5 mg/kg, 43+/-3 ms vs. 17+/-3 ms), ibutilide (15 microg/kg, 70+/-10 ms vs. 29+/-4 ms) and d,l-sotalol (1.5 mg/kg, 57+/-6 ms vs. 36+/-4 ms). The I(Kur) blockers, S20951and S9947, significantly decreased left atrial vulnerability (-82% and -100%, respectively, P<0.01) in contrast to the selective I(Kr) blocker dofetilide (-14%; n.s.). In conclusion, I(Kur) and I(Kr) blockers showed substantial differences in their atrial and ventricular actions in pigs. I(Kr) blockers were stronger on right atrial ERP, I(Kur) blockers on left atrial ERP, suggesting interatrial differences in the expression of potassium channels. In contrast to selective I(Kr) blockade, I(Kur) blockade inhibited left atrial vulnerability and had no effect on the QT-interval. Thus, blockade of I(Kur) seems to be a promising atrial selective antiarrhythmic concept.     

Tertiapin, a selective IKACh blocker, terminates atrial fibrillation with selective atrial effective refractory period prolongation.

It is well known that vagal nerve tone plays a crucial role in atrial fibrillation (AF). Acetylcholine-activated potassium current (IKACh) mediates much of the cardiac response to vagal nerve stimulation (VNS), but the contribution of IKACh to AF remains unknown. We investigated the role of the IKACh channel in canine AF models using tertiapin, a selective IKACh blocker. Tertiapin (4-41 nmol kg(-1), i.v.) terminated AF in the canine VNS-induced and aconitine-induced AF models. The muscarinic M-receptor antagonist AF-DX-116 terminated AF in these models, but the adenosine receptor antagonist DPCPX had no effect. Thus it is likely that IKACh activation via the M-receptor has a crucial role in both models. Tertiapin (12 nmol kg(-1), i.v.) preferentially prolonged the atrial effective refractory period (ERP) but not the ventricular ERP under the VNS condition. This peptide (4-41 nmol kg(-1), i.v.) did not affect PQ, QRS and corrected QT intervals in isoflurane-anaesthetised dogs. These results suggest that a selective IKACh blocker is effective in canine AF models without affecting ventricular repolarisation, and might be useful for the treatment of patients with AF.     

A comparison between calcium channel blocking drugs with different potencies for T- and L-type channels in preventing atrial electrical remodeling

Calcium overload plays a key role in the development of atrial electrical remodeling. The effect of an L-type Ca channel blocker in preventing this remodeling has been reported to be short lasting, partly due to down-regulation of this channel and persisting Ca entry through the T-type Ca channel. To prove if efonidipine, a dual L- and T-type Ca channel blocker exerts a greater effect than an L-type Ca channel blocker verapamil, 21 dogs underwent rapid atrial pacing at 400 bpm for 14 days, pretreatment with efonidipine in 7 (E), verapamil in 7 (V), and none in 7 (C). We measured the atrial effective refractory period (ERP) serially during 14 days of rapid pacing. In response to rapid pacing, ERP decreased progressively in C. In contrast, in E and V, ERP remained greater than ERP in C (P < 0.01) on days 2 through 7. However, on the 14th day, ERP in V decreased to the level seen in C, whereas ERP in E remained significantly longer than ERPs in C or V (P < 0.01). The blockade L-type Ca channel alone is not sufficient, but the addition of a T-type Ca channel blockade shows a more sustained effect to prevent atrial electrical remodeling.     

Atrial fibrillation in rats induced by rapid transesophageal atrial pacing during brief episodes of asphyxia: a new in vivo model

Non-pharmacological in vivo models of atrial fibrillation (AF) have been developed in large animals only. We aimed to develop and characterize a new small animal non-pharmacological in vivo model of AF. AF was induced by transesophageal atrial burst pacing during 35 seconds periods of asphyxia in anesthetized male Sprague-Dawley rats. AF was reproducibly induced in 81% of the rats. The presence of AF was associated with an increased heart rate, and a decreased blood pressure. Treatment with amiodarone, D,L-sotalol, flecainide, and propranolol all reduced duration of AF, whereas verapamil treatment was associated with a marked profibrillatory effect. Increasing gap junction intracellular communication using the antiarrhythmic peptide analogue AAP10 did not affect AF duration. Basal plasma level of epinephrine and norepinephrine were increased 5- to 20-fold relative to values reported by others, but unchanged following 35 seconds of asphyxia. The results from our study demonstrate that the rat model shares several clinical key characteristics with human AF: (1) hemodynamic response to AF; (2) increased autonomic tone; (3) antiarrhythmic effects of clinically used drugs; (4) profibrillatory effect of verapamil. Relative to existing models of AF in larger animals, this model offers rapid, predictive, and inexpensive testing of antiarrhythmic/profibrillatory effects of new drugs.     

Atrial fibrillation and atrial fibrosis

Atrial fibrillation (AF) is the most common arrhythmia in humans. It affects 5% of the population older than age 65 years and is projected to rise as the population ages. Experimental data from animal models of AF show that AF is associated with progressive structural and electrical remodeling of the atria. Atrial fibrosis alters atrial electrical conduction and excitability and provides a substrate for AF maintenance. However, whether fibrosis is causally related to AF or an epiphenomenon and the precise mechanisms underlying atrial fibrosis remain unclear. A variety of signaling systems involving angiotensin II and related mediators are centrally involved in atrial fibrosis. This article reviews the role that atrial fibrosis plays in AF, the mechanisms of atrial fibrosis, and emerging therapeutic approaches to AF aimed at attenuating atrial fibrosis.     

LncRNA MIAT靶向调节miR-128-3p对心房颤动大鼠心室重构和心肌纤维化的影响

目的 探讨保守的长链非编码RNA心肌梗死相关转录本（LncRNA MIAT）靶向调节miR-128-3p对心房颤动（AF）大鼠心室重构和心肌纤维化的影响。方法 通过舌下静脉注射氯化钙-乙酰胆碱混合液,诱导构建AF大鼠模型,以随机数字表法将其平均分为模型组、LncRNA MIAT siRNA质粒组（MIAT组）、miR-128-3p siRNA质粒组（miR-128-3p组）、LncRNA MIAT siRNA质粒+miR-128-3p siRNA质粒组（MIAT+miR-128-3p组）、空载质粒组,每组12只。另12只大鼠舌静脉注射等剂量生理盐水,作为对照组。分组干预处理后,检测大鼠心房肌电生理水平,比较各组有效不应期（ERP）和90%动作电位时程（APD90）;计算各组大鼠左心室质量指数;天狼星红染色检测大鼠心肌组织纤维化程度,比较各组心肌胶原容积分数（CVF）;使用试剂盒测量各组大鼠血清白细胞介素（IL）-18、IL-6、转化生长因子-β1(TGF-β1)水平;实时荧光定量PCR检测各组大鼠心肌组织miR-128-3p表达;双荧光素酶报告基因试验检测LncRNA MIAT对miR...     

Characterization of the in vivo and in vitro electrophysiological effects of the novel antiarrhythmic agent AZD7009 in atrial and ventricular tissue of the dog

This study evaluated the effects of the novel antiarrhythmic agent AZD7009 on atrial and ventricular repolarization and on the Na+-current system, using Vmax as an index. Anesthetized dogs were infused with AZD7009 or azimilide to produce three pseudo steady-state plasma concentrations in vivo. Microelectrode techniques were used to record action potentials and effective refractory period (ERP) in vitro. Whereas AZD7009 concentration-dependently increased atrial ERP (AERP, by 48 +/- 7 milliseconds maximum, P < 0.001 versus vehicle), the increases in ventricular ERP (VERP, 8 +/- 4 milliseconds) and QT interval (2 +/- 5.5 milliseconds) were small and not concentration-dependent. For azimilide, the AERP increase was less, whereas VERP and QT increases were substantially larger than with AZD7009. In vitro, AZD7009 concentration-dependently reduced Vmax and increased action potential duration (APD). ERP was increased through APD lengthening and post-repolarization refractoriness. The suppression of Vmax, but not APD prolongation, showed frequency-dependence. APD and ERP increases were more pronounced in atrial than ventricular tissue: in atria, 2 microM AZD7009 increased APD90 and ERP from 224 +/- 7 to 318 +/- 7 milliseconds and 241 +/- 7 milliseconds to 378 +/- 17 milliseconds; versus 257 +/- 5 to 283 +/- 7 milliseconds and 253 +/- 12 to 300 +/- 11 milliseconds respectively in ventricles. Thus, AZD7009 potently and predominantly increases atrial refractoriness in the dog, with actions mediated by combined effects on repolarization and the Na+-current system.     

Effects of a new class III antiarrhythmic drug nibentan in a canine model of vagally mediated atrial fibrillation

Nibentan, a new class III antiarrhythmic drug, is highly effective in patients with atrial flutter and fibrillation. However, its mechanism of action remains unclear. The aim of this study was to investigate the effects of nibentan using a canine model of vagally sustained atrial fibrillation (AF). Nibentan was intravenously infused to anesthetized open-chest dogs during vagally induced AF. Cumulative doses of nibentan (0.063, 0.125, and 0.250 mg/kg) successfully terminated AF in 78, 88, and 100% as well as prevented AF reinduction in 11, 63, and 90% of cases, respectively. All doses of nibentan significantly and rate-independently increased atrial effective refractory period (AERP) with and without vagal stimulation. Activation mapping (224 epicardial electrodes) during AF showed that nibentan reduced the number of simultaneously occurring reentrant wavelets. Herewith the atrial excitation slowed down until conduction failure of reentrant wavelets led to arrhythmia termination. These changes in activation patterns can be accounted for by nibentan-induced increase of AERP (55 +/- 9%, 82 +/- 12%, and 90 +/- 6%; p < 0.01) and wavelength for reentry (47 +/- 7%, 68 +/- 12%, and 72 +/- 4%; p < 0.01) at rapid atrial rates in the presence of vagal stimulation. In conclusion, the high efficacy of nibentan against AF was associated with significant rate-independent increase in AERP and in wavelength, and might be in part explained by block of both delayed rectifier (I(K)) and muscarinic I(K,ACh) currents.     

Effects of azimilide on the muscarinic acetylcholine receptor-operated K+ current and experimental atrial fibrillation in guinea-pig hearts

Effects of azimilide, a class III antiarrhythmic drug, on the acetylcholine (ACh) receptor-operated K+ current (I K.ACh) and the delayed rectifier K+ current (IK) were examined in guinea-pig atrial cells using patch-clamp techniques. Effects of azimilide on experimental atrial fibrillation (AF) were also examined in isolated guinea-pig hearts. In single atrial myocytes, azimilide inhibited both the rapid (IKr) and slow component of IK (IKs). Azimilide inhibited the I K.ACh induced by carbachol (CCh, 1 microM), adenosine (10 microM), and intracellular loading of GTPgammaS (100 microM) in a concentration-dependent manner. The IC50 values of azimilide for inhibiting the CCh-, adenosine-, and GTPgammaS-induced I K.ACh were 1.25, 29.1, and 20.9 microM, respectively, suggesting that azimilide inhibits I K.ACh mainly by blocking the muscarinic receptors. Azimilide concentration-dependently (0.3 - 10 microM) prolonged the action potential duration (APD) in the absence and presence of muscarinic stimulation. In isolated hearts, perfusion of CCh shortened the duration of the monophasic action potential (MAP) and effective refractory period (ERP) of the left atrium and lowered the atrial fibrillation threshold (AFT). Addition of azimilide inhibited the induction of AF by prolonging the duration of MAP and ERP. The I K.ACh inhibition by azimilide may at least in part contribute to the effectiveness to prevent parasympathetic-type AF.