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Seizure
May, 2023;108 33-42.

Static and temporal dynamic alteration of intrinsic brain activity in MRI-negative temporal lobe epilepsy.

Chengru Song, Xiaonan Zhang, Shaoqiang Han, Yajun Lian, Keran Ma, Kefan Wang, Xinyue Mao, Yong Zhang, Jingliang Cheng
Author Information
  1. Chengru Song: Department of Magnetic Resonance Imaging, The First Affiliated Hospital of Zhengzhou University, Zhengzhou, China; Key Laboratory for Functional Magnetic Resonance Imaging and Molecular Imaging of Henan Province, Zhengzhou, China; Engineering Technology Research Center for Detection and Application of Brain Function of Henan Province, Zhengzhou, China; Engineering Research Center of Medical Imaging Intelligent Diagnosis and Treatment of Henan Province, Zhengzhou, China; Key Laboratory of Magnetic Resonance and Brain Function of Henan Province, Zhengzhou, China; Key Laboratory of Brain Function and Cognitive Magnetic Resonance Imaging of Zhengzhou, Zhengzhou, China; Key Laboratory of Imaging Intelligence Research Medicine of Henan Province, Zhengzhou, China. Electronic address: songchengru@126.com.
  2. Xiaonan Zhang: Department of Magnetic Resonance Imaging, The First Affiliated Hospital of Zhengzhou University, Zhengzhou, China; Key Laboratory for Functional Magnetic Resonance Imaging and Molecular Imaging of Henan Province, Zhengzhou, China; Engineering Technology Research Center for Detection and Application of Brain Function of Henan Province, Zhengzhou, China; Engineering Research Center of Medical Imaging Intelligent Diagnosis and Treatment of Henan Province, Zhengzhou, China; Key Laboratory of Magnetic Resonance and Brain Function of Henan Province, Zhengzhou, China; Key Laboratory of Brain Function and Cognitive Magnetic Resonance Imaging of Zhengzhou, Zhengzhou, China; Key Laboratory of Imaging Intelligence Research Medicine of Henan Province, Zhengzhou, China. Electronic address: zxn972565@126.com.
  3. Shaoqiang Han: Department of Magnetic Resonance Imaging, The First Affiliated Hospital of Zhengzhou University, Zhengzhou, China; Key Laboratory for Functional Magnetic Resonance Imaging and Molecular Imaging of Henan Province, Zhengzhou, China; Engineering Technology Research Center for Detection and Application of Brain Function of Henan Province, Zhengzhou, China; Engineering Research Center of Medical Imaging Intelligent Diagnosis and Treatment of Henan Province, Zhengzhou, China; Key Laboratory of Magnetic Resonance and Brain Function of Henan Province, Zhengzhou, China; Key Laboratory of Brain Function and Cognitive Magnetic Resonance Imaging of Zhengzhou, Zhengzhou, China; Key Laboratory of Imaging Intelligence Research Medicine of Henan Province, Zhengzhou, China. Electronic address: shaoqianghan@163.com.
  4. Yajun Lian: Department of Neurology, The First Affiliated Hospital of Zhengzhou University, Zhengzhou, China. Electronic address: 568763585@qq.com.
  5. Keran Ma: Department of Magnetic Resonance Imaging, The First Affiliated Hospital of Zhengzhou University, Zhengzhou, China; Key Laboratory for Functional Magnetic Resonance Imaging and Molecular Imaging of Henan Province, Zhengzhou, China; Engineering Technology Research Center for Detection and Application of Brain Function of Henan Province, Zhengzhou, China; Engineering Research Center of Medical Imaging Intelligent Diagnosis and Treatment of Henan Province, Zhengzhou, China; Key Laboratory of Magnetic Resonance and Brain Function of Henan Province, Zhengzhou, China; Key Laboratory of Brain Function and Cognitive Magnetic Resonance Imaging of Zhengzhou, Zhengzhou, China; Key Laboratory of Imaging Intelligence Research Medicine of Henan Province, Zhengzhou, China. Electronic address: 1322725260@qq.com.
  6. Kefan Wang: Department of Magnetic Resonance Imaging, The First Affiliated Hospital of Zhengzhou University, Zhengzhou, China; Key Laboratory for Functional Magnetic Resonance Imaging and Molecular Imaging of Henan Province, Zhengzhou, China; Engineering Technology Research Center for Detection and Application of Brain Function of Henan Province, Zhengzhou, China; Engineering Research Center of Medical Imaging Intelligent Diagnosis and Treatment of Henan Province, Zhengzhou, China; Key Laboratory of Magnetic Resonance and Brain Function of Henan Province, Zhengzhou, China; Key Laboratory of Brain Function and Cognitive Magnetic Resonance Imaging of Zhengzhou, Zhengzhou, China; Key Laboratory of Imaging Intelligence Research Medicine of Henan Province, Zhengzhou, China. Electronic address: 17335530080@163.com.
  7. Xinyue Mao: Department of Magnetic Resonance Imaging, The First Affiliated Hospital of Zhengzhou University, Zhengzhou, China; Key Laboratory for Functional Magnetic Resonance Imaging and Molecular Imaging of Henan Province, Zhengzhou, China; Engineering Technology Research Center for Detection and Application of Brain Function of Henan Province, Zhengzhou, China; Engineering Research Center of Medical Imaging Intelligent Diagnosis and Treatment of Henan Province, Zhengzhou, China; Key Laboratory of Magnetic Resonance and Brain Function of Henan Province, Zhengzhou, China; Key Laboratory of Brain Function and Cognitive Magnetic Resonance Imaging of Zhengzhou, Zhengzhou, China; Key Laboratory of Imaging Intelligence Research Medicine of Henan Province, Zhengzhou, China. Electronic address: maoxinyue98@163.com.
  8. Yong Zhang: Department of Magnetic Resonance Imaging, The First Affiliated Hospital of Zhengzhou University, Zhengzhou, China; Key Laboratory for Functional Magnetic Resonance Imaging and Molecular Imaging of Henan Province, Zhengzhou, China; Engineering Technology Research Center for Detection and Application of Brain Function of Henan Province, Zhengzhou, China; Engineering Research Center of Medical Imaging Intelligent Diagnosis and Treatment of Henan Province, Zhengzhou, China; Key Laboratory of Magnetic Resonance and Brain Function of Henan Province, Zhengzhou, China; Key Laboratory of Brain Function and Cognitive Magnetic Resonance Imaging of Zhengzhou, Zhengzhou, China; Key Laboratory of Imaging Intelligence Research Medicine of Henan Province, Zhengzhou, China. Electronic address: zzuzhangyong2013@163.com.
  9. Jingliang Cheng: Department of Magnetic Resonance Imaging, The First Affiliated Hospital of Zhengzhou University, Zhengzhou, China; Key Laboratory for Functional Magnetic Resonance Imaging and Molecular Imaging of Henan Province, Zhengzhou, China; Engineering Technology Research Center for Detection and Application of Brain Function of Henan Province, Zhengzhou, China; Engineering Research Center of Medical Imaging Intelligent Diagnosis and Treatment of Henan Province, Zhengzhou, China; Key Laboratory of Magnetic Resonance and Brain Function of Henan Province, Zhengzhou, China; Key Laboratory of Brain Function and Cognitive Magnetic Resonance Imaging of Zhengzhou, Zhengzhou, China; Key Laboratory of Imaging Intelligence Research Medicine of Henan Province, Zhengzhou, China. Electronic address: fccchengjl@zzu.edu.cn.
PMID: 37062236 DOI: 10.1016/j.seizure.2023.04.004

Abstract

PURPOSE: To comprehensively explore the potential brain activity abnormalities affected by MRI-negative temporal lobe epilepsy (TLE) and to detect whether the changes were associated with cognition and help in the diagnosis or lateralization.
METHOD: Six static intrinsic brain activity (IBA) indicators (ALFF, fALFF, ReHo, DC, GSCorr, VMHC) and their corresponding six temporal dynamic indicators in 39 unilateral MRI-negative TLE patients and 42 healthy volunteers were compared. Correlation analyses were performed between these indicators in areas displaying group differences, cognitive function, and epilepsy duration. ROC analyses were performed to test the diagnostic and lateralization ability of the IBA parameters.
RESULTS: Considerable overlap was present among the abnormal brain regions detected by different static and dynamic indicators, including (1) alteration of fALFF, Reho, DC, VMHC, dfALFF, dReHo, and dDC in the temporal neocortex (predominately ipsilateral to the epileptogenic foci); (2) decreased dGSCorr and dVMHC in the occipital lobe. Meanwhile, the ReHo and VMHC values in the temporal neocortex correlated with the cognition scores or epilepsy duration (P < 0.01). The ROC analysis results revealed moderate diagnosis or lateralization efficiency of several IBA indicators (fALFF, dfALFF, ReHo, DC, dDC, and VMHC).
CONCLUSION: The abnormal condition of neuronal activity in the temporal neocortex, predominately lateralized to the epileptic side, was a crucial feature in patients with MRI-negative TLE and might offer diagnosis or lateralization information. The application of dynamic intrinsic brain activity indicators played a complementary role, further revealing the temporal variability decline of the occipital lobe in MRI-negative TLE patients.

Keywords

Cognition Dynamic Intrinsic brain activity (IBA) Resting-state functional magnetic resonance imaging (rs-fMRI) Temporal lobe epilepsy

MeSH Term

Humans
Epilepsy, Temporal Lobe
Magnetic Resonance Imaging
Brain
Neocortex
Occipital Lobe
ROC Curve
Journal Article
Article has an altmetric score of 1

Word Cloud

Created with Highcharts 10.0.0temporalbrainactivityindicatorsMRI-negativelobeepilepsyTLElateralizationIBAVMHCdynamicdiagnosisintrinsicfALFFReHoDCpatientsneocortexcognitionstaticanalysesperformeddurationROCabnormalalterationdfALFFdDCpredominatelyoccipitalPURPOSE:comprehensivelyexplorepotentialabnormalitiesaffecteddetectwhetherchangesassociatedhelpMETHOD:SixALFFGSCorrcorrespondingsix39unilateral42healthyvolunteerscomparedCorrelationareasdisplayinggroupdifferencescognitivefunctiontestdiagnosticabilityparametersRESULTS:Considerableoverlappresentamongregionsdetecteddifferentincluding1RehodReHoipsilateralepileptogenicfoci2decreaseddGSCorrdVMHCMeanwhilevaluescorrelatedscoresP<001analysisresultsrevealedmoderateefficiencyseveralCONCLUSION:conditionneuronallateralizedepilepticsidecrucialfeaturemightofferinformationapplicationplayedcomplementaryrolerevealingvariabilitydeclineStaticCognitionDynamicIntrinsicResting-statefunctionalmagneticresonanceimagingrs-fMRITemporal

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