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 ORCID:

Qian GONG

https://orcid.org/0000-0001-8587-4185

Lenan ZHUANG

https://orcid.org/0000-0001-9561-8396

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Journal of Zhejiang University SCIENCE B 2024 Vol.25 No.2 P.135-152

http://doi.org/10.1631/jzus.B2300285


Therapeutic advances in atrial fibrillation based on animal models


Author(s):  Qian GONG, Xuan LE, Pengcheng YU, Lenan ZHUANG

Affiliation(s):  Institute of Genetics and Reproduction, College of Animal Sciences, Zhejiang University,Hangzhou310058,China; more

Corresponding email(s):   zhuangln@zju.edu.cn

Key Words:  Atrial fibrillation, Animal model, Therapeutic


Qian GONG, Xuan LE, Pengcheng YU, Lenan ZHUANG. Therapeutic advances in atrial fibrillation based on animal models[J]. Journal of Zhejiang University Science B, 2024, 25(2): 135-152.

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A1 - Qian GONG
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A1 - Lenan ZHUANG
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DOI - 10.1631/jzus.B2300285


Abstract: 
atrial fibrillation (AF) is the most prevalent sustained cardiac arrhythmia among humans, with its incidence increasing significantly with age. Despite the high frequency of AF in clinical practice, its etiology and management remain elusive. To develop effective treatment strategies, it is imperative to comprehend the underlying mechanisms of AF; therefore, the establishment of animal models of AF is vital to explore its pathogenesis. While spontaneous AF is rare in most animal species, several large animal models, particularly those of pigs, dogs, and horses, have proven as invaluable in recent years in advancing our knowledge of AF pathogenesis and developing novel therapeutic options. This review aims to provide a comprehensive discussion of various animal models of AF, with an emphasis on the unique features of each model and its utility in AF research and treatment. The data summarized in this review provide valuable insights into the mechanisms of AF and can be used to evaluate the efficacy and safety of novel therapeutic interventions.

基于动物模型的房颤治疗进展

巩倩1,2,乐萱1,余鹏程2,庄乐南1,2
1浙江大学动物科学学院遗传与繁殖研究所,中国杭州市,310058
2浙江大学医学院邵逸夫医院心血管介入与再生医学浙江省重点实验室,心内科,中国杭州市,310016
摘要:心房颤动(Atrial fibrillation, AF)是人类最常见的由持续性心律失常导致的心脏疾病,其发病率随着年龄增长而显著增加。尽管房颤在临床实践中很常见,但其病因和治疗尚不清晰。为了制定有效的治疗策略,必须了解房颤的基本机制,因此建立房颤的动物模型对于探索其发病机制至关重要。虽然自发性房颤在大多数动物中罕见,但近年来一些大型动物模型,特别是猪、狗和马模型,已被证明在推进我们对房颤发病机制认识和开发新的治疗方案方面非常宝贵。本综述旨在对房颤的各种动物模型进行全面讨论,重点介绍每种模型的特征及其在房颤研究和治疗中的效用。本综述为房颤机制提供了宝贵的见解,并可用于评估新型治疗干预措施的有效性和安全性。

关键词:房颤;动物模型;治疗

Darkslateblue:Affiliate; Royal Blue:Author; Turquoise:Article

Reference

[1]AidonidisI,SimopoulosV,DiplaK,et al.,2021a.Effects of ranolazine and its combination with amiodarone on rapid pacing-induced reentrant atrial tachycardia in rabbits.J Innov Card Rhythm Manag,12(3):4421-4427.

[2]AidonidisI,SimopoulosV,StravelaS,et al.,2021b.Ranolazine depresses conduction of rapid atrial depolarizations in a beating rabbit heart model.J Interv Card Electrophysiol,62(1):153-159.

[3]AjoolabadyA,NattelS,LipGYH,et al.,2022.Inflammasome signaling in atrial fibrillation:JACC state-of-the-art review.J Am Coll Cardiol,79(23):2349-2366.

[4]AlessiR,NusynowitzM,AbildskovJA,et al.,1958.Nonuniform distribution of vagal effects on the atrial refractory period.Am J Physiol,194(2):406-410.

[5]AmmarEM,KudrinAN,1969.Comparative antiarrhythmic activity of beta-N-hexamethyleneimino-P-butoxypropiophenone, quinidine and novocaine amide in aconitine auricular fibrillation and flutter in cats.Farmakol Toksikol,32(4):415-418(in Russian).

[6]AndersenJH,AndreasenL,OlesenMS,2021.Atrial fibrillation—a complex polygenetic disease.Eur J Hum Genet,29(7):1051-1060.

[7]AokiY,HatakeyamaN,YamamotoS,et al.,2012.Role of ion channels in sepsis-induced atrial tachyarrhythmias in guinea pigs.Br J Pharmacol,166(1):390-400.

[8]ArbeloE,DagresN,2022.The 2020 ESC atrial fibrillation guidelines for atrial fibrillation catheter ablation, CABANA, and EAST.EP Europace, 24(S2):ii3-ii7.

[9]BahnsonTD,GiczewskaA,MarkDB,et al.,2022.Associ

[10]ation between age and outcomes of catheter ablation versus medical therapy for atrial fibrillation: results from the CABANA trial.Circulation,145(11):796-804.

[11]BalkhyHH,HareJ,SihHJ,2007.Autonomic ganglionated plexi: characterization and effect of epicardial microwave ablation in a canine model of vagally induced acute atrial fibrillation.Innovations (Phila),2(1):7-13.

[12]BeyerC,TokarskaL,StühlingerM,et al.,2021.Structural cardiac remodeling in atrial fibrillation.JACC Cardiovasc Imaging,14(11):2199-2208.

[13]BhimaniAA,YasudaT,SadrpourSA,et al.,2014.Ranolazine terminates atrial flutter and fibrillation in a canine model.Heart Rhythm,11(9):1592-1599.

[14]BingenBO,EngelsMC,SchalijMJ,et al.,2014.Light-induced termination of spiral wave arrhythmias by optogenetic engineering of atrial cardiomyocytes.Cardiovasc Res,104(1):194-205.

[15]BlanaA,KaeseS,FortmüllerL,et al.,2010.Knock-in gain-of-function sodium channel mutation prolongs atrial action potentials and alters atrial vulnerability.Heart Rhythm,7(12):1862-1869.

[16]BuhlR,NissenSD,WintherMLK,et al.,2021.Implantable loop recorders can detect paroxysmal atrial fibrillation in standardbred racehorses with intermittent poor performance.Equine Vet J,53(5):955-963.

[17]ByrneJE,GomollAW,McKinneyGR,1977.Antiarrhythmic properties of MJ 9067 in acute animal models.J Pharmacol Exp Ther,200(1):147-154.

[18]CalvertP,FarinhaJM,GuptaD,et al.,2022.A comparison of medical therapy and ablation for atrial fibrillation in patients with heart failure.Expert Rev Cardiovasc Ther,20(3):169-183.

[19]CalvoD,Filgueiras-RamaD,JalifeJ,2018.Mechanisms and drug development in atrial fibrillation.Pharmacol Rev,70(3):505-525.

[20]CarboneAM,del CalvoG,NagliyaD,et al.,2022.Autonomic nervous system regulation of epicardial adipose tissue: potential roles for regulator of G protein signaling-4.Curr Issues Mol Biol,44(12):6093-6103.

[21]CarstensenH,KjærL,HaugaardMM,et al.,2018.Antiarrhythmic effects of combining dofetilide and ranolazine in a model of acutely induced atrial fibrillation in horses.J Cardiovasc Pharmacol,71(1):26-35.

[22]CarstensenH,HesselkildeEZ,HaugaardMM,et al.,2019.Effects of dofetilide and ranolazine on atrial fibrillatory rate in a horse model of acutely induced atrial fibrillation.J Cardiovasc Electrophysiol,30(4):596-606.

[23]ChaTJ,EhrlichJR,ZhangLM,et al.,2004.Atrial ionic remodeling induced by atrial tachycardia in the presence of congestive heart failure.Circulation,110(12):‍1520-1526.

[24]ChaTJ,EhrlichJR,ZhangLM,et al.,2005.Atrial tachycardia remodeling of pulmonary vein cardiomyocytes: comparison with left atrium and potential relation to arrhythmogenesis.Circulation,111(6):728-735.

[25]ChenXJ,XuJ,JiangBZ,et al.,2016.Bone morphogenetic protein-7 antagonizes myocardial fibrosis induced by atrial fibrillation by restraining transforming growth factor-‍β (TGF-‍β)/Smads signaling. Med Sci Monit,22:3457-3468.

[26]ChenYJ,ChenSA,ChenYC,et al.,2001.Effects of rapid atrial pacing on the arrhythmogenic activity of single cardiomyocytes from pulmonary veins: implication in initiation of atrial fibrillation.Circulation,104(23):2849-2854.

[27]ChewDS,LiYH,CowperPA,et al.,2022.Cost-effectiveness of catheter ablation versus antiarrhythmic drug therapy in atrial fibrillation: the CABANA randomized clinical trial.Circulation,146(7):535-547.

[28]ChiouCW,EbleJN,ZipesDP,1997.Efferent vagal innervation of the canine atria and sinus and atrioventricular nodes.The third fat pad. Circulation,95(11):2573-2584.

[29]ClaussS,BleyerC,SchüttlerD,et al.,2019.Animal models of arrhythmia: classic electrophysiology to genetically modified large animals.Nat Rev Cardiol,16(8):457-475.

[30]CurranJ,HintonMJ,RíosE,et al.,2007.β-Adrenergic enhancement of sarcoplasmic reticulum calcium leak in cardiac myocytes is mediated by calcium/calmodulin-dependent protein kinase.Circ Res,100(3):391-398.

[31]DansonEJF,ZhangYH,SearsCE,et al.,2005.Disruption of inhibitory G-proteins mediates a reduction in atrial β-adrenergic signaling by enhancing eNOS expression.Cardiovasc Res,67(4):613-623.

[32]de ClercqD,van LoonG,TavernierR,et al.,2008.Atrial and ventricular electrical and contractile remodeling and reverse remodeling owing to short-term pacing-induced atrial fibrillation in horses.J Vet Intern Med,22(6):1353-1359.

[33]DeroubaixE,FolliguetT,Rücker-MartinC,et al.,2004.Moderate and chronic hemodynamic overload of sheep atria induces reversible cellular electrophysiologic abnormalities and atrial vulnerability.J Am Coll Cardiol,44(9):1918-1926.

[34]DinessJG,KirchhoffJE,SheykhzadeM,et al.,2015.Antiarrhythmic effect of either negative modulation or blockade of small conductance Ca2+-activated K+ channels on ventricular fibrillation in guinea pig langendorff-perfused heart.J Cardiovasc Pharmacol,66(3):294-299.

[35]DinessJG,SkibsbyeL,Simó-VicensR,et al.,2017.Termination of vernakalant-resistant atrial fibrillation by inhibition of small-conductance Ca2+-activated K+ channels in pigs.Circ Arrhythm Electrophysiol,10(10):e005125.

[36]DinessJG,KirchhoffJE,SpeerschneiderT,et al.,2020.The KCa2 channel inhibitor AP30663 selectively increases atrial refractoriness, converts vernakalant-resistant atrial fibrillation and prevents its reinduction in conscious pigs.Front Pharmacol,11:159.

[37]DobrevD,WehrensXHT,2018.Mouse models of cardiac arrhythmias.Circ Res,123(3):332-334.

[38]dos SantosL,AntonioEL,SerraAJ,et al.,2018.Atrial fibrillation promotion in a rat model of heart failure induced by left ventricle radiofrequency ablation.IJC Heart Vasc,21:22-28.

[39]EhrlichJR,ChaTJ,ZhangL,et al.,2003.Cellular electrophysiology of canine pulmonary vein cardiomyocytes: action potential and ionic current properties.J Physiol,551(Pt 3):801-813.

[40]ErhardN,MetznerA,FinkT,2022.Late arrhythmia recurrence after atrial fibrillation ablation: incidence, mechanisms and clinical implications.Herzschrittmacherther Elektrophysiol,33(1):71-76.

[41]FanYY,XuF,ZhuC,et al.,2019.Effects of febuxostat on atrial remodeling in a rabbit model of atrial fibrillation induced by rapid atrial pacing.J Geriatr Cardiol,16(7):540-551.

[42]FengRH,WanJJ,HeYS,et al.,2023.Angiotensin-receptor blocker losartan alleviates atrial fibrillation in rats by downregulating frizzled 8 and inhibiting the activation of WNT-5A pathway.Clin Exp Pharmacol Physiol,50(1):19-27.

[43]FieldLJ,1988.Atrial natriuretic factor-SV40 T antigen transgenes produce tumors and cardiac arrhythmias in mice.Science,239(4843):1029-1033.

[44]FrydrychowskiP,MichałekM,SławutaA,et al.,2020.Large animals as models of atrial fibrillation.Adv Clin Exp Med,29(6):757-767.

[45]GarciaJR,CampbellPF,KumarG,et al.,2018.Minimally invasive delivery of hydrogel-encapsulated amiodarone to the epicardium reduces atrial fibrillation.Circ Arrhythm Electrophysiol,11(5):e006408.

[46]GendenshteĭnEI,KostinIV,1976.Antiarrhythmic activity of trimecaine in experimental arrhythmia and its effect on the heart conduction system.Farmakol Toksikol,39(4):426-428.

[47]GendenshteĭnEI,KostinIV,SimonIB,1976.Anti-arrhythmic activity of the beta2-adrenoblockader alpheprol.Biull Eksp Biol Med,81(6):694-696(in Russian).

[48]GendenshteĭnEI,KostinIV,VolkovaND,1977.Antiarrhythmic activity of adrenergic blockaders with different mechanisms of action.Kardiologiia,17(4):116-120.

[49]GerstenfeldEP,LaviN,BazanV,et al.,2011.Mechanism of complex fractionated electrograms recorded during atrial fibrillation in a canine model.Pacing Clin Electrophysiol,34(7):844-857.

[50]GhiasM,ScherlagBJ,LuZB,et al.,2009.The role of ganglionated plexi in apnea-related atrial fibrillation.J Am Coll Cardiol,54(22):2075-2083.

[51]Godoy-MarínH,Jiménez-SábadoV,TarifaC,et al.,2023.Increased density of endogenous adenosine A2A receptors in atrial fibrillation: from cellular and porcine models to human patients.Int J Mol Sci,24(4):3668.

[52]GoldbergerAL,PavelecRS,1986.Vagally-mediated atrial fibrillation in dogs: conversion with bretylium tosylate.Int J Cardiol,13(1):47-55.

[53]GongC,DingY,LiangF,et al.,2022.Muscarinic receptor regulation of chronic pain-induced atrial fibrillation.Front Cardiovasc Med,9:934906.

[54]GuaschE,BenitoB,QiXY,et al.,2013.Atrial fibrillation promotion by endurance exercise: demonstration and mechanistic exploration in an animal model.J Am Coll Cardiol,62(1):68-77.

[55]GussakG,MarszalecW,YooS,et al.,2020.Triggered Ca2+ waves induce depolarization of maximum diastolic potential and action potential prolongation in dog atrial myocytes.Circ Arrhythm Electrophysiol,13(6):e008179.

[56]GuzadhurL,PearceySM,DuehmkeRM,et al.,2010.Atrial arrhythmogenicity in agedScn5a+/∆KPQ mice modeling long QT type 3 syndrome and its relationship to Na+ channel expression and cardiac conduction.Pflugers Arch-Eur J Physiol,460(3):593-601.

[57]HanJP,ZhangYZ,WangXF,et al.,2023.Ultrasound-mediated piezoelectric nanoparticle modulation of intrinsic cardiac autonomic nervous system for rate control in atrial fibrillation.Biomater Sci,11(2):655-665.

[58]HannaP,BuchE,StavrakisS,et al.,2021.Neuroscientific therapies for atrial fibrillation.Cardiovasc Res,117(7):1732-1745.

[59]HellgrenI,MustafaA,RiaziM,et al.,2000.Muscarinic M3 receptor subtype gene expression in the human heart.Cell Mol Life Sci CMLS,57(1):175-180.

[60]HesselkildeEZ,CarstensenH,FlethøjM,et al.,2019.Longitudinal study of electrical, functional and structural remodelling in an equine model of atrial fibrillation.BMC Cardiovasc Disord,19:228.

[61]HiramR,NaudP,XiongF,et al.,2019.Right atrial mechanisms of atrial fibrillation in a rat model of right heart disease.J Am Coll Cardiol,74(10):1332-1347.

[62]HulsurkarMM,LahiriSK,MooreO,et al.,2021.Atrial-specific LKB1 knockdown represents a novel mouse model of atrial cardiomyopathy with spontaneous atrial fibrillation.Circulation,144(11):909-912.

[63]IwasakiYK,ShiYF,BenitoB,et al.,2012.Determinants of atrial fibrillation in an animal model of obesity and acute obstructive sleep apnea.Heart Rhythm,9(9):1409-1416.e1.

[64]JalifeJ,BerenfeldO,SkanesA,et al.,1998.Mechanisms of atrial fibrillation: mother rotors or multiple daughter wavelets, or both?J Cardiovasc Electrophysiol,9(S8):S2-S12.

[65]JonesDL,TuomiJM,ChidiacP,2012.Role of cholinergic innervation and RGS2 in atrial arrhythmia.Front Physiol,3:239.

[66]JungSW,NewhardDK,HarrelsonK,2017.Transvenous electrical cardioversion of atrial fibrillation in two dogs.J Vet Cardiol,19(2):175-181.

[67]JustoF,FullerH,NearingBD,et al.,2016.Inhibition of the cardiac late sodium current with eleclazine protects against ischemia-induced vulnerability to atrial fibrillation and reduces atrial and ventricular repolarization abnormalities in the absence and presence of concurrent adrenergic stimulation.Heart Rhythm,13(9):1860-1867.

[68]KatoT,IwasakiYK,DukerG,et al.,2014.Inefficacy of a highly selective T-type calcium channel blocker in preventing atrial fibrillation related remodeling.J Cardiovasc Electrophysiol,25(5):531-536.

[69]KeefeJA,Navarro-GarciaJA,NiL,et al.,2022.In-depth characterization of a mouse model of postoperative atrial fibrillation.J Cardiovasc Aging,2:40.

[70]KirchhoffJE,DinessJG,SheykhzadeM,et al.,2015.Synergistic antiarrhythmic effect of combining inhibition of Ca2+-activated K+ (SK) channels and voltage-gated Na+ channels in an isolated heart model of atrial fibrillation.Heart Rhythm,12(2):409-418.

[71]KirchhoffJE,DinessJG,AbildgaardL,et al.,2016.Antiarrhythmic effect of the Ca2+-activated K+ (SK) channel inhibitor ICA combined with either amiodarone or dofetilide in an isolated heart model of atrial fibrillation.Pflugers Arch-Eur J Physiol,468(11-12):1853-1863.

[72]KirchhoffS,NellesE,HagendorffA,et al.,1998.Reduced cardiac conduction velocity and predisposition to arrhythmias in connexin40-deficient mice.Curr Biol,8(5):‍299-302.

[73]KistlerPM,SandersP,DodicM,et al.,2006.Atrial electrical and structural abnormalities in an ovine model of chronic blood pressure elevation after prenatal corticosteroid exposure: implications for development of atrial fibrillation.Eur Heart J,27(24):3045-3056.

[74]KjeldsenST,NissenSD,BuhlR,et al.,2022.Paroxysmal atrial fibrillation in horses: pathophysiology, diagnostics and clinical aspects.Animals (Basel),12(6):698.

[75]KochiadakisGE,IgoumenidisNE,HamilosME,et al.,2007.A comparative study of the efficacy and safety ofprocainamide versuspropafenone versusamiodarone for the conversion of recent-onset atrial fibrillation.Am J Cardiol,99(12):1721-1725.

[76]LeeAM,MillerJR,VoellerRK,et al.,2016.A simple porcine model of inducible sustained atrial fibrillation. Innovations (Phila),11(1):76-78.

[77]LeeS,VitebskiyS,GoldsteinRN,et al.,2022.Reliable pace termination of postoperative atrial fibrillation in the canine sterile pericarditis model: implications for atypical atrial flutter.Heart Rhythm O2,3(1):91-96.

[78]LemolaK,ChartierD,YehYH,et al.,2008.Pulmonary vein region ablation in experimental vagal atrial fibrillation: role of pulmonary veins versus autonomic ganglia.Circulation,117(4):470-477.

[79]LenaertsI,HolemansP,PokreiszP,et al.,2011.Nitric oxide delays atrial tachycardia-induced electrical remodelling in a sheep model.EP Europace,13(5):747-754.

[80]LequericaJL,SanzE,HorneroF,et al.,2009.Esophagus histological analysis after hyperthermia-induced injury: implications for cardiac ablation.Int J Hyperthermia,25(2):150-159.

[81]LewisT,1911.The electrocardiographic method and its relationship to clinical medicine.Proc Roy Soc Med,4:81-100.

[82]LiN,TimofeyevV,TutejaD,et al.,2009.Ablation of a Ca2+-activated K+ channel (SK2 channel) results in action potential prolongation in atrial myocytes and atrial fibrillation.J Physiol,587(5):1087-1100.

[83]LiN,WangTN,WangW,et al.,2012.Inhibition of CaMKII phosphorylation of RyR2 prevents induction of atrial fibrillation in FKBP12.6 knockout mice.Circ Res,110(3):465-470.

[84]LiN,ChiangDY,WangSF,et al.,2014.Ryanodine receptor-mediated calcium leak drives progressive development of an atrial fibrillation substrate in a transgenic mouse model.Circulation,129(12):1276-1285.

[85]LiaoJ,ZhangSS,YangST,et al.,2021.Interleukin-6-mediated-Ca2+ handling abnormalities contributes to atrial fibrillation in sterile pericarditis rats.Front Immunol,12:758157.

[86]LinJL,LaiLP,LinCS,et al.,2003.Electrophysiological mapping and histological examinations of the swine atrium with sustained (≥24 h) atrial fibrillation: a suitable animal model for studying human atrial fibrillation.Cardiology,99(2):78-84.

[87]LinzD,UkenaC,MahfoudF,et al.,2014.Atrial autonomic innervation: a target for interventional antiarrhythmic therapy?J Am Coll Cardiol,63(3):215-224.

[88]LinzD,HesselkildeE,KutielehR,et al.,2020.Pulmonary vein firing initiating atrial fibrillation in the horse: oversized dimensions but similar mechanisms.J Cardiovasc Electrophysiol,31(5):1211-1212.

[89]LiuF,SunW,LiY,et al.,2021.Low-level stimulation and ethanol ablation of the vein of marshall prevent the vagal-mediated AF.Front Cardiovasc Med,8:675485.

[90]LiuL,NattelS,1997.Differing sympathetic and vagal effects on atrial fibrillation in dogs: role of refractoriness heterogeneity.Am J Physiol-Heart Circ Physiol,273(2):H805-H816.

[91]LuZB,NieL,HeB,et al.,2013.Increase in vulnerability of atrial fibrillation in an acute intermittent hypoxia model: importance of autonomic imbalance.Auton Neurosci,177(2):148-153.

[92]LugenbielP,WenzF,GovorovK,et al.,2015.Atrial fibrillation complicated by heart failure induces distinct remodeling of calcium cycling proteins.PLoS ONE,10(3):e0116395.

[93]LymperopoulosA,CoraN,ManingJ,et al.,2021.Signaling and function of cardiac autonomic nervous system receptors: insights from the gpcr signalling universe.FEBS J,288(8):2645-2659.

[94]MaSZ,YanF,HouYL,2023.Intermedin 1-53 ameliorates atrial fibrosis and reduces inducibility of atrial fibrillation via TGF-β1/pSmad3 and Nox4 pathway in a rat model of heart failure.J Clin Med,12(4):1537.

[95]ManatiW,PineauJ,PuertasRD,et al.,2018.Vagal stimulation after acute coronary occlusion: the heart rate matters.Cardiol J,25(6):709-713.

[96]ManningerM,ZweikerD,van HunnikA,et al.,2018.Arterial hypertension drives arrhythmia progression via specific structural remodeling in a porcine model of atrial fibrillation.Heart Rhythm,15(9):1328-1336.

[97]MartinsRP,KaurK,HwangE,et al.,2014.Dominant frequency increase rate predicts transition from paroxysmal to long-term persistent atrial fibrillation.Circulation,129(14):1472-1482.

[98]McCauleyMD,HongL,SridharA,et al.,2020.Ion channel and structural remodeling in obesity-mediated atrial fibrillation.Circ Arrhythm Electrophysiol,13(8):e008296.

[99]MiyauchiY,ZhouSM,OkuyamaY,et al.,2003.Altered atrial electrical restitution and heterogeneous sympathetic hyperinnervation in hearts with chronic left ventricular myocardial infarction: implications for atrial fibrillation.Circulation,108(3):360-366.

[100]Monigatti-TenkorangJ,JoussetF,PascaleP,et al.,2014.Intermittent atrial tachycardia promotes repolarization alternans and conduction slowing during rapid rates, and increases susceptibility to atrial fibrillation in a free-behaving sheep model.J Cardiovasc Electrophysiol,25(4):418-427.

[101]NamekataI,HiiroH,OdakaR,et al.,2022.Inhibitory effect of a late sodium current blocker, NCC-3902, on the automaticity of the guinea pig pulmonary vein myocardium.Biol Pharm Bull,45(11):1644-1652.

[102]NattelS,DobrevD,2016.Electrophysiological and molecular mechanisms of paroxysmal atrial fibrillation.Nat Rev Cardiol,13(10):575-590.

[103]NofiC,ZhangK,TangYD,et al.,2020.Chronic dantrolene treatment attenuates cardiac dysfunction and reduces atrial fibrillation inducibility in a rat myocardial infarction heart failure model.Heart Rhythm O2,1(2):126-135.

[104]NogamiS,SatohS,NakanoM,et al.,2003.Taxilin; a novel syntaxin-binding protein that is involved in Ca2+-dependent exocytosis in neuroendocrine cells.Genes Cells,8(1):‍17-28.

[105]OhS,ZhangYH,BibevskiS,et al.,2006.Vagal denervation and atrial fibrillation inducibility: epicardial fat pad ablation does not have long-term effects.Heart Rhythm,3(6):701-708.

[106]OharaK,MiyauchiY,OharaT,et al.,2002.Downregulation of immunodetectable atrial Connexin4O in a canine model of chronic left ventricular myocardial infarction: implications to atrial fibrillation.J Cardiovasc Pharmacol Ther,7(2):89-94.

[107]OrtizJ,NiwanoS,AbeH,et al.,1994.Mapping the conversion of atrial flutter to atrial fibrillation and atrial fibrillation to atrial flutter. Insights into mechanisms.Circ Res,74(5):882-894.

[108]OyamaMA,ProsekR,2006.Acute conversion of atrial fibrillation in two dogs by intravenous amiodarone administration.J Vet Intern Med,20(5):1224-1227.

[109]PackerDL,PicciniJP,MonahanKH,et al.,2021.Ablation versus drug therapy for atrial fibrillation in heart failure: results from the CABANA trial.Circulation,143(14):1377-1390.

[110]PattersonE,LazzaraR,SzaboB,et al.,2006.Sodium-calcium exchange initiated by the Ca2+ transient: an arrhythmia trigger within pulmonary veins.J Am Coll Cardiol,47(6):1196-1206.

[111]PedroB,Fontes-SousaAP,GelzerAR,2020.Diagnosis and management of canine atrial fibrillation.Vet J,265:105549.

[112]PereiraPJS,PugsleyMK,TroncyE,et al.,2019.Incidence of spontaneous arrhythmias in freely moving healthy untreated Sprague-Dawley rats.J Pharmacol Toxicol Methods,99:106589.

[113]Pinho-GomesAC,AmorimMJ,OliveiraSM,et al.,2014.Surgical treatment of atrial fibrillation: an updated review.Eur J Cardiothorac Surg,46(2):167-178.

[114]PoSS,LiYH,TangD,et al.,2005.Rapid and stable re-entry within the pulmonary vein as a mechanism initiating paroxysmal atrial fibrillation.J Am Coll Cardiol,45(11):1871-1877.

[115]PoSS,ScherlagBJ,YamanashiWS,et al.,2006.Experimental model for paroxysmal atrial fibrillation arising at the pulmonary vein-atrial junctions.Heart Rhythm,3(2):201-208.

[116]PolejaevaIA,RanjanR,DaviesCJ,et al.,2016.Increased susceptibility to atrial fibrillation secondary to atrial fibrosis in transgenic goats expressing transforming growth factor-‍β1. J Cardiovasc Electrophysiol,27(10):1220-1229.

[117]PruvotE,JoussetF,RuchatP,et al.,2007.Propagation velocity kinetics and repolarization alternans in a free-behaving sheep model of pacing-induced atrial fibrillation.EP Europace, 9(S6):vi83-vi88.

[118]QuintanillaJG,Alfonso-AlmazánJM,Pérez-CastellanoN,et al.,2019.Instantaneous amplitude and frequency modulations detect the footprint of rotational activity and reveal stable driver regions as targets for persistent atrial fibrillation ablation.Circ Res,125(6):609-627.

[119]RamírezJ,TinkerA,2021.Ventricular restitution predicts paroxysmal atrial fibrillation in horses.Function,2(1):zqaa038.

[120]RemesJ,van BrakelTJ,BolotinG,et al.,2008.Persistent atrial fibrillation in a goat model of chronic left atrial overload.J Thorac Cardiovasc Surg,136(4):1005-1011.

[121]RivardL,SinnoH,Shiroshita-TakeshitaA,et al.,2007.The pharmacological response of ischemia-related atrial fibrillation in dogs: evidence for substrate-specific efficacy.Cardiovasc Res,74(1):104-113.

[122]RoselliC,RienstraM,EllinorPT,2020.Genetics of atrial fibrillation in 2020: GWAS, genome sequencing, polygenic risk, and beyond.Circ Res,127(1):21-33.

[123]SagrisM,VardasEP,TheofilisP,et al.,2022.Atrial fibrillation: pathogenesis, predisposing factors, and genetics.Int J Mol Sci,23(1):6.

[124]SaljicA,JespersenT,BuhlR,2022.Anti-arrhythmic investigations in large animal models of atrial fibrillation.Br J Pharmacol,179(5):838-858.

[125]Santa CruzA,MeşeG,ValiunieneL,et al.,2015.Altered conductance and permeability of Cx40 mutations associated with atrial fibrillation.J Gen Physiol,146(5):387-398.

[126]ScherlagBJ,NakagawaH,JackmanWM,et al.,2005.Electrical stimulation to identify neural elements on the heart: their role in atrial fibrillation.J Interv Card Electrophysiol,13(Suppl 1):37-42.

[127]ScherlagBJ,HouYL,LinJX,et al.,2008.An acute model for atrial fibrillation arising from a peripheral atrial site: evidence for primary and secondary triggers.J Cardiovasc Electrophysiol,19(5):519-527.

[128]SchwartzmanD,BadhwarV,KormosRL,et al.,2016.A plasma-based, amiodarone-impregnated material decreases susceptibility to atrial fibrillation in a post-cardiac surgery model.Innovations (Phila),11(1):59-63.

[129]SchwarzlM,AlognaA,ZweikerD,et al.,2016.A porcine model of early atrial fibrillation using a custom-built, radio transmission-controlled pacemaker.J Electrocardiol,49(2):124-131.

[130]ShenMJ,ZipesDP,2014.Role of the autonomic nervous system in modulating cardiac arrhythmias.Circ Res,114(6):1004-1021.

[131]ShenS,DuanJF,HuJX,et al.,2022.Colchicine alleviates inflammation and improves diastolic dysfunction in heart failure rats with preserved ejection fraction.Eur J Pharmacol,929:175126.

[132]SiasosG,SkotsimaraG,OikonomouE,et al.,2020.Antithrombotic treatment in diabetes mellitus: a review of the literature about antiplatelet and anticoagulation strategies used for diabetic patients in primary and secondary prevention.Curr Pharm Des,26(23):2780-2788.

[133]SicouriS,BelardinelliL,AntzelevitchC,2019.Effect of autonomic influences to induce triggered activity in muscular sleeves extending into the coronary sinus of the canine heart and its suppression by ranolazine.J Cardiovasc Electrophysiol,30(2):230-238.

[134]SyMR,KeefeJA,SuttonJP,et al.,2023.Cardiac function, structural, and electrical remodeling by microgravity exposure.Am J Physiol Heart Circ Physiol,324(1):‍H1-H13.

[135]TakemotoY,RamirezRJ,KaurK,et al.,2017.Eplerenone reduces atrial fibrillation burden without preventing atrial electrical remodeling.J Am Coll Cardiol,70(23):2‍893-2905.

[136]TempleJ,FriasP,RottmanJ,et al.,2005.Atrial fibrillation in KCNE1-null mice.Circ Res,97(1):62-69.

[137]ToriiS,YamamotoT,NakamuraN,et al.,2021.Antiplatelet effect of single antiplatelet therapy with prasugrel and oral anticoagulation after stent implantation in a rabbit arteriovenous shunt model.Circ Rep,3(9):504-510.

[138]TubeeckxMRL,LagaS,JacobsC,et al.,2021.Sterile pericarditis in Aachener minipigs as a model for atrial myopathy and atrial fibrillation.J Vis Exp,175:e63094.

[139]WadaT,Hagiwara-NagasawaM,KambayashiR,et al.,2021.Effects of cardiac massage and β‍-blocker pretreatment on the success rate of cardiopulmonary resuscitation assessed by the canine ischemia/reperfusion-induced ventricular fibrillation model. Circ J,85(10):1885-1891.

[140]WangJ,LiuL,FengJ,et al.,1996.Regional and functional factors determining induction and maintenance of atrial fibrillation in dogs.Am J Physiol-Heart Circ Physiol,271(1 Pt2):H148-H158.

[141]WangXW,ShangguanWF,LiGP,2018.Angiotensin-‍(1‍‒‍7) prevents atrial tachycardia induced-heat shock protein 27 expression. J Electrocardiol,51(1):117-120.

[142]WatanabeH,YangT,StroudDM,et al.,2011.Striking in vivo phenotype of a disease-associated humanSCN5A mutation producing minimal changes in vitro.Circulation,124(9):1001-1011.

[143]WiedmannF,BeyersdorfC,ZhouXB,et al.,2020.Pharmacologic TWIK-related acid-sensitive K+ channel (TASK-1) potassium channel inhibitor A293 facilitates acute cardioversion of paroxysmal atrial fibrillation in a porcine large animal model.J Am Heart Assoc,9(10):e015751.

[144]WijesurendraRS,CasadeiB,2019.Mechanisms of atrial fibrillation.Heart,105(24):1860-1867.

[145]WijffelsMCEF,KirchhofCJHJ,DorlandR,et al.,1995.Atrial fibrillation begets atrial fibrillation.A study in awake chronically instrumented goats. Circulation,92(7):‍1954-1968.

[146]WinslowE,1981.Hemodynamic and arrhythmogenic effects of aconitine applied to the left atria of anesthetized cats. Effects of amiodarone and atropine.J Cardiovasc Pharmacol,3(1):87-100.

[147]YaoCX,VelevaT,ScottL,et al.,2018.Enhanced cardiomyocyte NLRP3 inflammasome signaling promotes atrial fibrillation.Circulation,138(20):2227-2242.

[148]YooS,RottmannM,NgJ,et al.,2023.Regions of highly recurrent electrogram morphology with low cycle length reflect substrate for atrial fibrillation.JACC Basic Transl Sci,8(1):68-84.

[149]ZhangY,WangYT,ShanZL,et al.,2015.Role of inflammation in the initiation and maintenance of atrial fibrillation and the protective effect of atorvastatin in a goat model of aseptic pericarditis.Mol Med Rep,11(4):2615-2623.

[150]ZhaoH,ChenYM,MaoM,et al.,2022.A meta-analysis of colchicine in prevention of atrial fibrillation following cardiothoracic surgery or cardiac intervention.J Cardiothorac Surg,17:224.

[151]ZhaoQY,ZhangSD,HuangH,et al.,2011.Inflammation abnormalities and inducibility of atrial fibrillation after epicardial ganglionated plexi ablation.Arch Cardiovasc Dis,104(4):227-233.

[152]ZhouLL,LiuY,WangZJ,et al.,2021.Activation of NADPH oxidase mediates mitochondrial oxidative stress and atrial remodeling in diabetic rabbits.Life Sci,272:119240.

[153]ZhouSM,ChangCM,WuTJ,et al.,2002.Nonreentrant focal activations in pulmonary veins in canine model of sustained atrial fibrillation.Am J Physiol Heart Circ Physiol,283(3):H1244-H1252.

[154]ZhouZ,LiSY,ShengX,et al.,2020.Interactions between metabolism regulator adiponectin and intrinsic cardiac autonomic nervous system: a potential treatment target for atrial fibrillation.Int J Cardiol,302:59-66.

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