[1] Trinka E, Kwan P, Lee B, Dash A. Epilepsy in Asia:disease burden, management barriers, and challenges[J]. Epilepsia, 2019, 60 Suppl 1:7-21. [2] Ding D, Zhou D, Sander JW, Wang W, Li S, Hong Z. Epilepsy in China:major progress in the past two decades[J]. Lancet Neurol, 2021, 20:316-326. [3] Wang WZ, Wu WJ, Wang DS, Dai XY, Yang B, Wang TP, Yuan CL, Scott RA, Prilipko LL, de Boer HM, Sander JW. The prevalence and treatment gap in epilepsy in China:an ILAE/IBE/WHO study[J]. Neurology, 2003, 60:1544-1545. [4] Helmstaedter C, Witt JA. Epilepsy and cognition:a bidirectional relationship[J]? Seizure, 2017, 49:83-89. [5] Wang L, Chen S, Liu C, Lin W, Huang H. Factors for cognitive impairment in adult epileptic patients[J]. Brain Behav, 2020, 10:e01475. [6] Zhu L, Chen L, Xu P, Lu D, Dai S, Zhong L, Han Y, Zhang M, Xiao B, Chang L, Wu Q. Genetic and molecular basis of epilepsy-related cognitive dysfunction[J]. Epilepsy Behav, 2020, 104(Pt A):106848. [7] Operto FF, Pastorino GMG, Mazza R, Di Bonaventura C, Marotta R, Pastorino N, Matricardi S, Verrotti A, Carotenuto M, Roccella M. Social cognition and executive functions in children and adolescents with focal epilepsy[J]. Eur J Paediatr Neurol, 2020, 28:167-175. [8] Stewart E, Lah S, Smith ML. Patterns of impaired social cognition in children and adolescents with epilepsy:the borders between different epilepsy phenotypes[J]. Epilepsy Behav, 2019, 100(Pt B):106146. [9] van Iterson L, Zijlstra BJH, Augustijn PB, van der Leij A, de Jong PF. Duration of epilepsy and cognitive development in children:a longitudinal study[J]. Neuropsychology, 2014, 28:212-221. [10] Taylor J, Baker GA. Newly diagnosed epilepsy:cognitive outcome at 5 years[J]. Epilepsy Behav, 2010, 18:397-403. [11] Sen A, Capelli V, Husain M. Cognition and dementia in older patients with epilepsy[J]. Brain, 2018, 141:1592-1608. [12] Giménez DeGeorge E, Fullen C, Gess J, Kleiner J, Larson-Prior L. Effects of age of onset and medication on cognitive performance and quality of life in patients with epilepsy[J]. Epilepsy Behav, 2021, 121(Pt A):108008. [13] Celiker Uslu S, Yuksel B, Tekin B, Sariahmetoglu H, Atakli D. Cognitive impairment and drug responsiveness in mesial temporal lobe epilepsy[J]. Epilepsy Behav, 2019, 90:162-167. [14] Gavrilovic A, Toncev G, Boskovic Matic T, Vesic K, Ilic Zivojinovic J, Gavrilovic J. Impact of epilepsy duration, seizure control and EEG abnormalities on cognitive impairment in drug-resistant epilepsy patients[J]. Acta Neurol Belg, 2019, 119:403-410. [15] Feldman L, Lapin B, Busch RM, Bautista JF. Evaluating subjective cognitive impairment in the adult epilepsy clinic:effects of depression, number of antiepileptic medications, and seizure frequency[J]. Epilepsy Behav, 2018, 81:18-24. [16] Arinzechi EO, Ogunrin OA, Nwosu CM, Nwani PO, Enwereji KO, Asomugha LA, Dimkpa U. Seizure frequency and risk of cognitive impairment in people living with epilepsy in a sub-urban community in South Eastern Nigeria[J]. J Clin Neurosci, 2019, 59:98-105. [17] Voltzenlogel V, Vignal JP, Hirsch E, Manning L. The influence of seizure frequency on anterograde and remote memory in mesial temporal lobe epilepsy[J]. Seizure, 2014, 23:792-798. [18] Holmes GL. Cognitive impairment in epilepsy:the role of network abnormalities[J]. Epileptic Disord, 2015, 17:101-116. [19] Motamedi G, Meador K. Epilepsy and cognition[J]. Epilepsy Behav, 2003, 4 Suppl 2:S25-38. [20] Fisher RS, Cross JH, French JA, Higurashi N, Hirsch E, Jansen FE, Lagae L, Moshé SL, Peltola J, Roulet Perez E, Scheffer IE, Zuberi SM. Operational classification of seizure types by the International League Against Epilepsy:Position Paper of the ILAE Commission for Classification and Terminology[J]. Epilepsia, 2017, 58:522-530. [21] Englot DJ, Yang L, Hamid H, Danielson N, Bai X, Marfeo A, Yu L, Gordon A, Purcaro MJ, Motelow JE, Agarwal R, Ellens DJ, Golomb JD, Shamy MC, Zhang H, Carlson C, Doyle W, Devinsky O, Vives K, Spencer DD, Spencer SS, Schevon C, Zaveri HP, Blumenfeld H. Impaired consciousness in temporal lobe seizures:role of cortical slow activity[J]. Brain, 2010, 133(Pt 12):3764-3777. [22] Xing L, Wilsch-Bräuninger M, Huttner WB. How neural stem cells contribute to neocortex development[J]. Biochem Soc Trans, 2021, 49:1997-2006. [23] Sinha N, Peternell N, Schroeder GM, de Tisi J, Vos SB, Winston GP, Duncan JS, Wang Y, Taylor PN. Focal to bilateral tonic-clonic seizures are associated with widespread network abnormality in temporal lobe epilepsy[J]. Epilepsia, 2021, 62:729-741. [24] Caciagli L, Allen LA, He X, Trimmel K, Vos SB, Centeno M, Galovic M, Sidhu MK, Thompson PJ, Bassett DS, Winston GP, Duncan JS, Koepp MJ, Sperling MR. Thalamus and focal to bilateral seizures:a multiscale cognitive imaging study[J]. Neurology, 2020, 95:e2427-2441. [25] Pan LP, Song YJ. Neural oscillation during working memory in left temporal lobe epilepsy[J]. Zhongguo Xian Dai Shen Jing Ji Bing Za Zhi, 2022, 22:564-569.[潘立平, 宋毅军. 左侧颞叶癫痫工作记忆期间神经振荡模式研究[J]. 中国现代神经疾病杂志, 2022, 22:564-569.] [26] Gul A, Ahmad H. Thought suppression predicts task switching deficits in patients with frontal lobe epilepsy[J]. Neurosciences (Riyadh), 2015, 20:153-158. [27] Mirabel H, Guinet V, Voltzenlogel V, Pradier S, Hennion S. Social cognition in epilepsy:state of the art and perspectives[J]. Rev Neurol (Paris), 2020, 176:468-479. [28] Postma TS, Cury C, Baxendale S, Thompson PJ, Cano-López I, de Tisi J, Burdett JL, Sidhu MK, Caciagli L, Winston GP, Vos SB, Thom M, Duncan JS, Koepp MJ, Galovic M. Hippocampal shape is associated with memory deficits in temporal lobe epilepsy[J]. Ann Neurol, 2020, 88:170-182. [29] Li N, Li J, Chen Y, Chu C, Zhang X, Zhong R, Li M, Lu Y, Zhao Q, Lin W. One-year analysis of risk factors associated with cognitive impairment in newly diagnosed epilepsy in adults[J]. Front Neurol, 2020, 11:594164. [30] van den Berg L, de Weerd A, Reuvekamp M, van der Meere J. Cognitive control deficits in pediatric frontal lobe epilepsy[J]. Epilepsy Behav, 2020, 102:106645. [31] Aarts JH, Binnie CD, Smit AM, Wilkins AJ. Selective cognitive impairment during focal and generalized epileptiform EEG activity[J]. Brain, 1984, 107(Pt 1):293-308. [32] Ung H, Cazares C, Nanivadekar A, Kini L, Wagenaar J, Becker D, Krieger A, Lucas T, Litt B, Davis KA. Interictal epileptiform activity outside the seizure onset zone impacts cognition[J]. Brain, 2017, 140:2157-2168. JM, Mamelak [33] Reed CM, Mosher CP, Chandravadia N, Chung AN, Rutishauser U. Extent of single-neuron activity modulation by hippocampal interictal discharges predicts declarative memory disruption in humans[J]. J Neurosci, 2020, 40:682-693. [34] Landi S, Petrucco L, Sicca F, Ratto GM. Transient cognitive impairment in epilepsy[J]. Front Mol Neurosci, 2019, 11:458. [35] Holmes GL, Lenck-Santini PP. Role of interictal epileptiform abnormalities in cognitive impairment[J]. Epilepsy Behav, 2006, 8:504-515. Carney PW, [36] Foster E, Malpas CB, Ye K, Johnstone B, Velakoulis D, O'Brien TJ, Kwan P. Antiepileptic drugs are not independently associated with cognitive dysfunction[J]. Neurology, 2020, 94:e1051-1061. and dementia [37] Beghi E, Beghi M. Epilepsy, antiepileptic drugs[J]. Curr Opin Neurol, 2020, 33:191-197. [38] Brandt C, Lahr D, May TW. Cognitive adverse events of topiramate in patients with epilepsy and intellectual disability[J]. Epilepsy Behav, 2015, 45:261-264. [39] Lee HW, Jung DK, Suh CK, Kwon SH, Park SP. Cognitive effects of low-dose topiramate monotherapy in epilepsy patients:a 1-year follow-up[J]. Epilepsy Behav, 2006, 8:736-741. [40] Tatum WO 4th, French JA, Faught E, Morris GL 3rd, Liporace J, Kanner A, Goff SL, Winters L, Fix A; PADS Investigators, Post-marketing antiepileptic drug survey. Postmarketing experience with topiramate and cognition[J]. Epilepsia, 2001, 42:1134-1140. [41] Quon RJ, Mazanec MT, Schmidt SS, Andrew AS, Roth RM, MacKenzie TA, Sajatovic M, Spruill T, Jobst BC. Antiepileptic drug effects on subjective and objective cognition[J]. Epilepsy Behav, 2020, 104(Pt A):106906. [42] Devinsky O, Vezzani A, O'Brien TJ, Jette N, Scheffer IE, de Curtis M, Perucca P. Epilepsy[J]. Nat Rev Dis Primers, 2018, 4:18024. [43] Chen Y, Wei YC, Duan GX, Liang LY. Clinical and neuroimaging progression of subject cognitive decline[J]. Lin Chuang Fang She Xue Za Zhi, 2020, 39:1028-1031.[陈娅, 韦懿宸, 段高雄, 梁玲艳. 主观认知下降的临床及神经影像学进展[J]. 临床放射学杂志, 2020, 39:1028-1031.] [44] Thijs RD, Surges R, O'Brien TJ, Sander JW. Epilepsy in adults[J]. Lancet, 2019, 393:689-701. [45] Jehi L, Braun K. Does etiology really matter for epilepsy surgery outcome[J]? Brain Pathol, 2021, 31:e12965. [46] Helmstaedter C, Beeres K, Elger CE, Kuczaty S, Schramm J, Hoppe C. Cognitive outcome of pediatric epilepsy surgery across ages and different types of surgeries:a monocentric 1-year follow-up study in 306 patients of school age[J]. Seizure, 2020, 77:86-92. [47] Kanner AM, Helmstaedter C, Sadat-Hossieny Z, Meador K. Cognitive disorders in epilepsy:Ⅰ. Clinical experience, real-world evidence and recommendations[J]. Seizure, 2020, 83:216-222. [48] Kadish NE, Bast T, Reuner G, Wagner K, Mayer H, Schubert-Bast S, Wiegand G, Strobl K, Brandt A, Korinthenberg R, van Velthoven V, Schulze-Bonhage A, Zentner J, Ramantani G. Epilepsy surgery in the first 3 years of life:predictors of seizure freedom and cognitive development[J]. Neurosurgery, 2019, 84:E368-377. [49] Milovanović JR, Janković SM, Milovanović D, Ružić Zečević D, Folić M, Kostić M, Ranković G, Stefanović S. Contemporary surgical management of drug-resistant focal epilepsy[J]. Expert Rev Neurother, 2020, 20:23-40. [50] Jarčušková D, Palušná M, Gazda J, Feketeová E, Gdovinová Z. Which clinical and neuropsychological factors are responsible for cognitive impairment in patients with epilepsy[J]? Int J Public Health, 2020, 65:947-956. [51] Forthoffer N, Kleitz C, Bilger M, Brissart H. Depression could modulate neuropsychological status in epilepsy[J]. Rev Neurol (Paris), 2020, 176:456-467. [52] Lövdén M, Fratiglioni L, Glymour MM, Lindenberger U, Tucker-Drob EM. Education and cognitive functioning across the life span[J]. Psychol Sci Public Interest, 2020, 21:6-41. [53] Lin HF, Huang LC, Chen CK, Juo SH, Chen CS. Carotid atherosclerosis among middle-aged individuals predicts cognition:a 10-year follow-up study[J]. Atherosclerosis, 2020, 314:27-32. [54] Raga S, Specchio N, Rheims S, Wilmshurst JM. Developmental and epileptic encephalopathies:recognition and approaches to care[J]. Epileptic Disord, 2021, 23:40-52. [55] Trivisano M, Specchio N. What are the epileptic encephalopathies[J]? Curr Opin Neurol, 2020, 33:179-184. [56] Ryvlin P, Rheims S, Hirsch LJ, Sokolov A, Jehi L. Neuromodulation in epilepsy:state-of-the-art approved therapies[J]. Lancet Neurol, 2021, 20:1038-1047. [57] Cavalcante BRR, Improta-Caria AC, Melo VH, De Sousa RAL. Exercise-linked consequences on epilepsy[J]. Epilepsy Behav, 2021, 121(Pt A):108079 |