Bidirectional associations between coronary artery disease and epilepsy: cross-sectional and prospective analyses from the UK biobank

Li Zhang; Weifang Liu; Yilu Xue; Liwen Wang; Cong Gong; Zhi-Gang She; Hongliang Li

doi:10.20517/jca.2026.03

The Journal of Cardiovascular Aging ›› 2026, Vol. 6 ›› Issue (2) -10. DOI: 10.20517/jca.2026.03

Original Research Article

Bidirectional associations between coronary artery disease and epilepsy: cross-sectional and prospective analyses from the UK biobank

Li Zhang ¹^,^#
, Weifang Liu ¹^,²^,³^,^#
, Yilu Xue ²^,³
, Liwen Wang ²^,³
, Cong Gong ²^,³
, Zhi-Gang She ¹^,²^,³
, Hongliang Li ¹^,²^,³

Author information +

History +

PDF

Abstract

Aim: This study aimed to evaluate the bidirectional association between coronary artery disease (CAD) and epilepsy and to examine the modifying effect of genetic susceptibility.

Methods: Using data from the UK Biobank, we conducted cross-sectional and longitudinal analyses. In the cross-sectional analysis (n = 502,359), logistic regression estimated odds ratios for the association between CAD and epilepsy. In Cohort 1 (n = 496,921 without baseline epilepsy), stratified Cox models assessed the risk of incident epilepsy by CAD status. In Cohort 2 (n = 475,130 without baseline CAD), the risk of incident CAD by epilepsy status was similarly evaluated. Polygenic risk scores for CAD and epilepsy were incorporated to assess genetic modification.

Results: The median baseline age was 58.0 years, and 45.6% were male. Over a median follow-up of 13.8 years, 3,590 participants developed epilepsy and 39,223 developed CAD. CAD was significantly associated with epilepsy both cross-sectionally and longitudinally (hazard ratio (HR) 1.32; 95% confidence interval (CI): 1.15-1.51; P < 0.001). Conversely, epilepsy increased CAD risk (HR 1.31; 95%CI: 1.12-1.54; P < 0.001). These associations were consistent across age, sex, and body mass index (BMI) strata. CAD predicted epilepsy only in participants with low genetic risk, while epilepsy predicted CAD mainly in those with high genetic risk.

Conclusions: Our findings indicate a bidirectional association between CAD and epilepsy. Additionally, this association exhibits heterogeneity across subgroups and may be influenced by genetic susceptibility. These results underscore the need for further studies to elucidate the underlying mechanisms and clinical implications.

Keywords

Bidirectional relationship / epilepsy / coronary artery disease / polygenic risk score

Cite this article

Download citation ▾

Li Zhang, Weifang Liu, Yilu Xue, Liwen Wang, Cong Gong, Zhi-Gang She, Hongliang Li. Bidirectional associations between coronary artery disease and epilepsy: cross-sectional and prospective analyses from the UK biobank. The Journal of Cardiovascular Aging, 2026, 6(2): -10 DOI:10.20517/jca.2026.03

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Bauersachs R,Brière JB,Bowrin K.Burden of coronary artery disease and peripheral artery disease: a literature review.Cardiovasc Ther.2019;2019:8295054 PMCID:PMC7024142

[2]	Leong DP,McKee M.Reducing the global burden of cardiovascular disease, part 2: prevention and treatment of cardiovascular disease.Circ Res.2017;121:695-710

[3]	Townsend N,Lucy Wright F.Epidemiology of cardiovascular disease in Europe.Nat Rev Cardiol.2022;19:133-43

[4]	Soppert J,Marx N,Noels H.Lipoproteins and lipids in cardiovascular disease: from mechanistic insights to therapeutic targeting.Adv Drug Delivery Rev.2020;159:4-33

[5]	Wang W,Liu H.Global burden of disease study 2019 suggests that metabolic risk factors are the leading drivers of the burden of ischemic heart disease.Cell Metab.2021;33:1943-56.e2

[6]	Adams LA,Tilg H.Non-alcoholic fatty liver disease and its relationship with cardiovascular disease and other extrahepatic diseases.Gut.2017;66:1138-53

[7]	Fowkes R,Sinclair H,Kunadian V.Coronary artery disease in patients with dementia.Coron Artery Dis.2016;27:511-20

[8]	Stakos DA,Bampatsias D.The Alzheimer's disease amyloid-beta hypothesis in cardiovascular aging and disease: JACC focus seminar.J Am Coll Cardiol.2020;75:952-67 PMCID:PMC7042886

[9]	Huang X,Lei F.Association of urban environments with Atherosclerotic cardiovascular disease: A prospective cohort study in the UK Biobank.Environ Int.2024;193:109110

[10]	Sun T,Lei F.Artificial sweeteners and risk of incident cardiovascular disease and mortality: evidence from UK Biobank.Cardiovasc Diabetol.2024;23:233 PMCID:PMC11225337

[11]	Targher G,Tilg H.NAFLD and increased risk of cardiovascular disease: clinical associations, pathophysiological mechanisms and pharmacological implications.Gut.2020;69:1691-705

[12]	Epilepsy Collaborators. Global, regional, and national burden of epilepsy, 1990-2021: a systematic analysis for the Global Burden of Disease Study 2021.Lancet Public Health.2025;10:e203-27 PMCID:PMC11876103

[13]	2021 Nervous System Disorders Collaborators. Global, regional, and national burden of disorders affecting the nervous system, 1990-2021: a systematic analysis for the Global Burden of Disease Study 2021.Lancet Neurol.2024;23:344-81

[14]	Ding D,Sander JW,Li S.Epilepsy in China: major progress in the past two decades.Lancet Neurol.2021;20:316-26

[15]	Fiest KM,Wiebe S.Prevalence and incidence of epilepsy: a systematic review and meta-analysis of international studies.Neurology.2017;88:296-303

[16]	De Luca R,Nardone S.Gastrointestinal microbiota and inflammasomes interplay in health and disease: a gut feeling.Gut.2025;75:161-75 PMCID:PMC12703328

[17]	Symonds JD,Shetty J.Early childhood epilepsies: epidemiology, classification, aetiology, and socio-economic determinants.Brain.2021;144:2879-91 PMCID:PMC8557326

[18]	Singh G.The global burden of epilepsy report: Implications for low- and middle-income countries.Epilepsy Behav.2020;105:106949

[19]	Stefanidou M,Devinsky O.Vascular risk factors as predictors of epilepsy in older age: The Framingham Heart Study.Epilepsia.2022;63:237-43

[20]	Devinsky O,Thurman D.Recognizing and preventing epilepsy-related mortality: a call for action.Neurology.2016;86:779-86

[21]	Ellis CA,Berkovic SF.Epilepsy genetics: clinical impacts and biological insights.Lancet Neurol.2020;19:93-100

[22]	Thurman DJ,Beghi E.The burden of premature mortality of epilepsy in high-income countries: A systematic review from the Mortality Task Force of the International League Against Epilepsy.Epilepsia.2017;58:17-26 PMCID:PMC7004822

[23]	Mayer J,Bisson A.Epilepsy and the risk of adverse cardiovascular events: A nationwide cohort study.Eur J Neurol.2024;31:e16116 PMCID:PMC11235735

[24]	Fialho GL.Epilepsy and the heart: can 'brain arrhythmia' lead to cardiac arrhythmias? Back to the basics.Eur Heart J.2024;45:853-4

[25]	Manford M.Recent advances in epilepsy.J Neurol.2017;264:1811-24 PMCID:PMC5533817

[26]	Husein N,Keezer MR.Understanding cardiovascular disease in older adults with epilepsy.Epilepsia.2021;62:2060-71

[27]	Nyberg J,Torén K,Ben-Menachem E.Cardiovascular fitness and later risk of epilepsy: a Swedish population-based cohort study.Neurology.2013;81:1051-7

[28]	Neri S,Pascarella A.Epilepsy in cerebrovascular diseases: a narrative review.Curr Neuropharmacol.2023;21:1634-45

[29]	Hesdorffer DC,Benn E.Combined analysis of risk factors for SUDEP.Epilepsia.2011;52:1150-9

[30]	Xu K,Xia G.Rapid gut dysbiosis induced by stroke exacerbates brain infarction in turn.Gut.2021;70:1486-94

[31]	Ioannou P,Sander JW.The burden of epilepsy and unmet need in people with focal seizures.Brain Behav.2022;12:e2589 PMCID:PMC9480957

[32]	Terrone G,Vezzani A.Inflammation and epilepsy: preclinical findings and potential clinical translation.Curr Pharm Des.2017;23:5569-76

[33]	Simats A,Liesz A.Heart-brain axis in health and disease: role of innate and adaptive immunity.Cardiovasc Res.2025;120:2325-35

[34]	Wannamaker BB,Malek AM.Stroke after adult-onset epilepsy: a population-based retrospective cohort study.Epilepsy Behav.2015;43:93-9

[35]	Zack M.Adults with an epilepsy history, notably those 45-64 years old or at the lowest income levels, more often report heart disease than adults without an epilepsy history.Epilepsy Behav.2018;86:208-10 PMCID:PMC6113097

[36]	Terman SW,Hill CE,Burke JF.Cardiovascular disease risk, awareness, and treatment in people with epilepsy.Epilepsy Behav.2021;117:107878

[37]	Shah RA,Ranjha S.Cardiovascular disease burden, mortality, and sudden death risk in epilepsy: a UK biobank study.Can J Cardiol.2024;40:688-95

[38]	Annegers JF,Shirts SB.Heart disease mortality and morbidity in patients with epilepsy.Epilepsia.1984;25:699-704

[39]	Bucci T,Rivera-Caravaca JM.Epilepsy-heart syndrome: incidence and clinical outcomes of cardiac complications in patients with epilepsy.Curr Probl Cardiol.2023;48:101868

[40]	Sudlow C,Allen N.UK biobank: an open access resource for identifying the causes of a wide range of complex diseases of middle and old age.PLoS Med.2015;12:e1001779 PMCID:PMC4380465

[41]	Bycroft C,Petkova D.The UK Biobank resource with deep phenotyping and genomic data.Nature.2018;562:203-9 PMCID:PMC6786975

[42]	Thompson DJ,Selzam S.A systematic evaluation of the performance and properties of the UK biobank polygenic risk score (PRS) release.PLoS ONE.2024;19:e0307270 PMCID:PMC11410272

[43]	International League Against Epilepsy Consortium on Complex Epilepsies. Electronic address: epilepsy-austin@unimelb.edu.au. Genetic determinants of common epilepsies: a meta-analysis of genome-wide association studies.Lancet Neurol.2014;13:893-903

[44]	International League Against Epilepsy Consortium on Complex Epilepsies. GWAS meta-analysis of over 29,000 people with epilepsy identifies 26 risk loci and subtype-specific genetic architecture.Nat Genet.2023;55:1471-82

[45]	Heyne HO,Wanner J.Polygenic risk scores as a marker for epilepsy risk across lifetime and after unspecified seizure events.Nat Commun.2024;15:6277 PMCID:PMC11272783

[46]	Klarin D.Clinical utility of polygenic risk scores for coronary artery disease.Nat Rev Cardiol.2022;19:291-301 PMCID:PMC10150334

[47]	Heyne HO.Polygenic risk scores in epilepsy.Med Genet.2022;34:225-30 PMCID:PMC11006355

[48]	Mathur MB,Riddell CA.Web site and R package for computing E-values.Epidemiology.2018;29:e45-7

[49]	VanderWeele TJ.Sensitivity analysis in observational research: introducing the E-value.Ann Intern Med.2017;167:268-74

[50]	Costagliola G,Coll M,Parisi P.The brain-heart interaction in epilepsy: implications for diagnosis, therapy, and SUDEP prevention.Ann Clin Transl Neurol.2021;8:1557-68 PMCID:PMC8283165

[51]	Murphy E.Estrogen signaling and cardiovascular disease.Circ Res.2011;109:687-96 PMCID:PMC3398381

[52]	Libby P.Pathophysiology of coronary artery disease.Circulation.2005;111:3481-8

[53]	Rana A.The role of inflammation in the development of epilepsy.J Neuroinflammation.2018;15:144 PMCID:PMC5952578

[54]	International League Against Epilepsy Consortium on Complex Epilepsies. Genome-wide mega-analysis identifies 16 loci and highlights diverse biological mechanisms in the common epilepsies.Nat Commun.2018;9:5269

[55]	Sivathamboo S,Sutherland F.Serious cardiac arrhythmias detected by subcutaneous long-term cardiac monitors in patients with drug-resistant epilepsy.Neurology.2022;98:e1923-32

[56]	Hall SA.Targeting vascular senescence in cardiovascular disease with aging.J Cardiovasc Aging.2024;4:16

[57]	Muthu S,Thilagavathi J.Aging triggers mitochondrial, endoplasmic reticulum, and metabolic stress responses in the heart.J Cardiovasc Aging.2025;5:4 PMCID:PMC11928159

[58]	Sun Q,Wong N.Advances in myocardial energy metabolism: metabolic remodelling in heart failure and beyond.Cardiovasc Res.2024;120:1996-2016 PMCID:PMC11646102

[59]	Dichgans M,König IR.Shared genetic susceptibility to ischemic stroke and coronary artery disease: a genome-wide analysis of common variants.Stroke.2014;45:24-36

[60]	Verrier RL,Nearing BD.Epileptic heart: a clinical syndromic approach.Epilepsia.2021;62:1780-9

[61]	Pasini E.The heart and seizures: friends or enemies?.J Clin Med.2023;12:5805 PMCID:PMC10532013

[62]	Wang J,Yu Q.Epilepsy and long-term risk of arrhythmias.Eur Heart J.2023;44:3374-82 PMCID:PMC10499547

[63]	Chuang YC,Lin TK.Effects of long-term antiepileptic drug monotherapy on vascular risk factors and atherosclerosis.Epilepsia.2012;53:120-8

[64]	Beghi E,Codegoni AM,Torri W.Valproate, carnitine metabolism, and biochemical indicators of liver function. Collaborative Group for the Study of Epilepsy.Epilepsia.1990;31:346-52

[65]	Li J,Thijs RD.Antiseizure medications and cardiovascular events in older people with epilepsy in the canadian longitudinal study on aging.JAMA Neurol.2024;81:1178-86

[66]	MacLeod C,Nixon M.Glucocorticoids: fuelling the fire of atherosclerosis or therapeutic extinguishers?.Int J Mol Sci.2021;22 PMCID:PMC8303333

[67]	Xu Y.Relationship between chronic hypoxia and seizure susceptibility.CNS Neurosci Ther.2022;28:1689-705 PMCID:PMC9532927

[68]	Grigg-Damberger M.Hypoxia not AHI in adults with sleep apnea midlife markedly increases risk of late-onset epilepsy-Carosella CM et al Sleep apnea, hypoxia, and late-onset epilepsy: the Atherosclerosis Risk in Communities study SLEEP-2023-0175.R1.Sleep.2024;47:zsad252

[69]	Eastman CL,Ganesh T.Modulating neuroinflammation and oxidative stress to prevent epilepsy and improve outcomes after traumatic brain injury.Neuropharmacology.2020;172:107907 PMCID:PMC7274911