Risk Factors For Recurrence In Epilepsy Patients
Abstract
Epilepsy is a chronic neurological disorder characterized by recurrent seizures resulting from abnormal electrical activity in the brain. It remains a significant global health concern, particularly in low- and middle-income countries (LMICs). The recurrence of seizures in patients with epilepsy is influenced by multiple clinical and nonclinical factors involved in epileptogenesis. This literature review aims to summarize the risk factors for recurrent seizures in patients with epilepsy based on recent scientific evidence. The literature was obtained from PubMed, Google Scholar, and manual searches and included articles published in English and Indonesian between 2010 and 2026. The study designs included meta-analyses, systematic reviews, cohort studies, case-control studies, cross-sectional studies, and case reports. The findings indicate that seizure recurrence is associated with the etiology of epilepsy (structural, genetic, infectious, metabolic, immunological, and idiopathic), as well as with lifestyle and behavioral factors such as sleep deprivation, psychological stress, alcohol consumption, smoking, and non-adherence to antiepileptic drugs. Abnormal MRI findings also increase the risk of disease recurrence. Furthermore, neuroinflammatory mechanisms, particularly microglial activation and proinflammatory cytokine release, contribute to increased neuronal excitability. In conclusion, recurrent seizures in epilepsy result from complex interactions among biological, clinical, and behavioral factors. Early identification and management of these risk factors are essential to reduce seizure recurrence and improve the quality of life of patients.
Keywords: Epilepsy, Recurrent Seizures, Risk Factors, Epileptogenesis, Seizure Triggers
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- 1. Kusumastuti K. Guidelines for epilepsy management. Surabaya: Airlangga University Press; 2019.PubMedGoogle Scholar
- 2. World Health Organization. Epilepsy. Geneva: World Health Organization; 2019.PubMedGoogle Scholar
- 3. Tedyanto EH, Chandra L, Adam OM. Overview of the use of antiepileptic drugs (AEDs) in epilepsy patients based on seizure type at the neurology clinic of Dr. Ramelan Hospital, Surabaya. Wijaya Kusuma Scientific Journal of Medicine. 2020;9(1):77-84.PubMedGoogle Scholar
- 4. Yuliastuti F, Sari DP, Agusta HF. Description of antiepileptic drug prescription in outpatients at Prof. Dr. Soerojo Mental Hospital, Magelang, January–June 2022. Borobudur Pharmacy Review. 2024;4(1):1-6.PubMedGoogle Scholar
- 5. Aulia F, Imran Y. Comparison between effect of phenytoin and valproic acid on total cholesterol in epilepsy. Int J Pharm Res. 2020;12(4):4-2620.PubMedGoogle Scholar
- 6. Falco-Walter J. Epilepsy: definition, classification, pathophysiology, and epidemiology. Semin Neurol. 2020;40(6):23-617.PubMedGoogle Scholar
- 7. Falco-Walter JJ, Scheffer IE, Fisher RS. The new definition and classification of seizures and epilepsy. Epilepsy Res. 2018;139:9-73.PubMedGoogle Scholar
- 8. Pitkänen A, Engel J. Past and present definitions of epileptogenesis and its biomarkers. Neurotherapeutics. 2014;11(2):41-231.PubMedGoogle Scholar
- 9. Alyu F, Dikmen M. Inflammatory aspects of epileptogenesis: contribution of molecular inflammatory mechanisms. Acta Neuropsychiatr. 2017;29(1):1-16.PubMedGoogle Scholar
- 10. Scorza CA, Marques MJG, Gomes da Silva S. Status epilepticus does not induce acute brain inflammatory response in the Amazon rodent Proechimys, an animal model resistant to epileptogenesis. Neurosci Lett. 2018;668:73-169.PubMedGoogle Scholar
- 11. Sarlo GL, Holton KF. Brain concentrations of glutamate and GABA in human epilepsy: a review. Seizure. 2021;91:27-213.PubMedGoogle Scholar
- 12. Hanada T. Ionotropic glutamate receptors in epilepsy: a review focusing on AMPA and NMDA receptors. Biomolecules. 2020;10(3):464.PubMedGoogle Scholar
- 13. Simonato M. Epilepsy: an update on disease mechanisms—the potential role of microRNAs. Front Neurol. 2018;9:176.PubMedGoogle Scholar
- 14. Hovinga CA, Asato MR, Manjunath R. Association of non-adherence to antiepileptic drugs and seizures, quality of life, and productivity: survey of patients with epilepsy and physicians. Epilepsy Behav. 2008;13(2):22-316.PubMedGoogle Scholar
- 15. Suzuki H, Mikuni N, Ohnishi H. Forgetting to take antiseizure medications is associated with focal to bilateral tonic-clonic seizures: a cross-sectional study. PLoS One. 2020;15(10):e0240082.PubMedGoogle Scholar
- 16. Raru TB, Geremew BM, Tamirat KS. Change in the frequency of seizure attacks and associated factors among adult epilepsy patients at Amanuel Mental Specialized Hospital: a generalized linear mixed model. Neuropsychiatr Dis Treat. 2021;17:38-2529.PubMedGoogle Scholar
- 17. Dansen FLD, Rudyanto. Effect of sleep quality on the incidence of seizures in epilepsy patients. Sandi Husada Scientific Health Journal. 2020;9(2):897-901.PubMedGoogle Scholar
- 18. Al-Beltagi M, Saeed NK, Bediwy AS. Unraveling the nutritional challenges in epilepsy: risks, deficiencies, and management strategies: a systematic review. World J Exp Med. 2025;15(2):104328.PubMedGoogle Scholar
- 19. Pinikahana J, Dono J. The lived experience of initial symptoms of and factors triggering epileptic seizures. Epilepsy Behav. 2009;15(4):20-513.PubMedGoogle Scholar
- 20. Sugandi E, Dewi DRL, Wilson. The relationship between depression, anxiety, and stress on the frequency of seizures in epilepsy patients. Journal of Medicine and Health. 2022;18(2):8-220.PubMedGoogle Scholar
- 21. Novakova B, Harris PR, Ponnusamy A. The role of stress as a trigger for epileptic seizures: a narrative review of evidence from human and animal studies. Epilepsia. 2013;54(11):76-1866.PubMedGoogle Scholar
- 22. Hamerle M, Ghaeni L, Kowski A. Alcohol use and alcohol-related seizures in patients with epilepsy. Front Neurol. 2018;9:401.PubMedGoogle Scholar
- 23. Becchetti A, Grandi LC, Cerina M. Nicotinic acetylcholine receptors and epilepsy. Pharmacol Res. 2023;189:106698.PubMedGoogle Scholar
- 24. Torriani O, Vuilleumier F, Perneger T. Epilepsy and tobacco smoking: a cross-sectional study. J Neurol. 2016;263(10):64-2057.PubMedGoogle Scholar
- 25. Aprilia HP, Jeniyanthi NPR, Supriyani N. Analysis of magnetic resonance imaging (MRI) brain examination with clinical epilepsy at Dr. Hasan Sadikin General Hospital, Bandung. Prepotif: Journal of Public Health. 2024;8(3):26-7917.PubMedGoogle Scholar
- 26. Adamczyk-Sowa M, Pierzchała K, Sowa P. The most common lesions detected by neuroimaging as causes of epilepsy. Medicina (Kaunas). 2021;57(3):294.PubMedGoogle Scholar