第46卷第1期
              · 110  ·                           南 京    医 科 大 学 学         报                        2026年1月


                   International league against epilepsy classification and  work ：updated anatomy ，physiology and evolving in⁃
                   definition of epilepsy syndromes with onset in childhood：  sights［J］. Nat Rev Neurosci，2019，20（10）：593-608

                   position paper by the ILAE task force on nosology and  ［17］WITT S T，VAN ETTINGER⁃VEENSTRA H，SALO T，et
                   definitions［J］. Epilepsia，2022，63（6）：1398-1442    al. What executive function network is that? An image ⁃
             ［4］ WIRRELL E C. Benign epilepsy of childhood with centro⁃  based meta⁃analysis of network labels［J］. Brain Topogr，
                   temporal spikes［J］. Epilepsia，1998，39（s4）：S32-S41  2021，34（5）：598-607
             ［5］ ZANABONI M P，VARESIO C，PASCA L，et al. Systematic  ［18］SCHIMMELPFENNIG J，TOPCZEWSKI J，ZAJKOWSKI
                   review of executive functions in children with self⁃limited  W，et al. The role of the salience network in cognitive and
                   epilepsy with centrotemporal spikes［J］. Epilepsy Behav，  affective deficits［J］. Front Hum Neurosci，2023，17：
                   2021，123：108254                                   1133367
             ［6］ WU L，YANG X，WANG X，et al. The attention networks  ［19］WURINA，ZANG Y F，ZHAO S G. Resting ⁃ state fMRI
                   in benign epilepsy with centrotemporal spikes：a long ⁃  studies in epilepsy［J］. Neurosci Bull，2012，28（4）：449-
                   term follow⁃up study［J］. Clin Neurosci，2021，88：22-27  455
             ［7］ YIN Y，WANG F，MA Y，et al. Structural and functional  ［20］LOPES DA SILVA F H. The impact of EEG/MEG signal
                   changes in drug ⁃ naïve benign childhood epilepsy with  processing and modeling in the diagnostic and manage⁃
                   centrotemporal spikes and their associated gene expression  ment of epilepsy［J］. IEEE Rev Biomed Eng，2008，1：
                   profiles［J］. Cereb Cortex，2023，33（10）：5774-5782   143-156
             ［8］ XU Y，WANG Y，XU F，et al. Impact of interictal epilepti⁃  ［21］ DUNCAN J S，TRIMMEL K. Advanced neuroimaging
                   form discharges on brain network in self⁃limited epilepsy  techniques in epilepsy［J］. Curr Opin Neurol，2022，35
                   with centrotemporal spikes：a magnetoencephalography  （2）：189-195
                   study［J］. Brain Behav，2023，13（6）：e3038       ［22］BENBADIS S R，BENICZKY S，BERTRAM E，et al. The
             ［9］ VAN DIESSEN E，DIEDEREN S J H，BRAUN K P J，et         role of EEG in patients with suspected epilepsy［J］. Epi⁃
                   al. Functional and structural brain networks in epilepsy：  leptic Disord，2020，22（2）：143-155
                   what have we learned?［J］. Epilepsia，2013，54（11）：  ［23］GOODMAN A M，SZAFLARSKI J P. Recent advances in
                   1855-1865                                         neuroimaging of epilepsy［J］. Neurotherapeutics，2021，18
             ［10］THAPALIYA B，AKBAS E，CHEN J，et al. Brain net⁃       （2）：811-826
                   works and intelligence：a graph neural network based ap⁃  ［24］OTSUBO H，OGAWA H，PANG E，et al. A review of mag⁃
                   proach to resting state fMRI data［J］. Med Image Anal，  netoencephalography use in pediatric epilepsy：an update
                   2025，101：103433                                   on best practice［J］. Expert Rev Neurother，2021，21
             ［11］ADEBIMPE A，AARABI A，BOUREL⁃PONCHEL E，et al.        （11）：1225-1240
                   EEG resting state analysis of cortical sources in patients  ［25］LI Y，SUN Y，NIU K，et al. The relationship between neu⁃
                   with benign epilepsy with centrotemporal spikes［J］. Neu⁃  romagnetic activity and cognitive function in benign child⁃
                   roimage Clin，2015，9：275-282                       hood epilepsy with centrotemporal spikes［J］. Epilepsy &
             ［12］HU J，CHEN G，ZENG Z，et al. Systematically altered con⁃  Behavior，2020，112：107363
                   nectome gradient in benign childhood epilepsy with cen⁃  ［26］WANG Y，LI Y，SUN F，et al. Altered neuromagnetic ac⁃
                   trotemporal spikes ：potential effect on cognitive func⁃  tivity in default mode network in childhood absence epi⁃
                   tion［J］. Neuroimage Clin，2024，43：103628           lepsy［J］. Front Neurosci，2023，17：1133064
             ［13］KRISTANTO D，LIU X，SOMMER W，et al. What do neu⁃  ［27］SCHIRNER M，KONG X，YEO B T T，et al. Dynamic
                   roanatomical networks reveal about the ontology of human  primitives of brain network interaction. Neuroimage［J］.
                   cognitive abilities?［J］. iScience，2022，25（8）：104706  2022，250：118928
             ［14］MENON V. 20 years of the default mode network：a re⁃  ［28］WANG P F，LI Y H，SUN Y L，et al. Altered functional
                   view and synthesis［J］. Neuron，2023，111（16）：2469-  connectivity in newly diagnosed benign epilepsy with uni⁃
                   2487                                              lateral or bilateral centrotemporal spikes：a multi⁃frequen⁃
             ［15］KAEFER K，STELLA F，MCNAUGHTON B L，et al. Re⁃         cy MEG study［J］. Epilepsy Behav，2021，124：108276
                   play，the default mode network and the cascaded memory  ［29］VIVEKANANDA U，BUSH D，BISBY J A，et al. Theta
                   systems model［J］. Nat Rev Neurosci，2022，23（10）：628-  power and theta⁃gamma coupling support long⁃term spa⁃
                   640                                               tial memory retrieval［J］. Hippocampus，2021，31（2）：
             ［16］BUCKNER R L，DINICOLA L M. The brain’s default net⁃  213-220