Frontoparietal 18F-FDG-PET hypo-metabolism in Lennox-Gastaut syndrome: Further evidence highlighting the key network

[1]  Aaron E. L. Warren,et al.  The Optimal Target and Connectivity for Deep Brain Stimulation in Lennox–Gastaut Syndrome , 2022, Annals of neurology.

[2]  Aaron E. L. Warren,et al.  DBS of Thalamic Centromedian Nucleus for Lennox–Gastaut Syndrome (ESTEL Trial) , 2021, Annals of neurology.

[3]  Aaron E. L. Warren,et al.  One-Stage, Limited-Resection Epilepsy Surgery for Bottom-of-Sulcus Dysplasia , 2021, Neurology.

[4]  H. Chugani Hypermetabolism on Pediatric PET Scans of Brain Glucose Metabolism: What Does It Signify? , 2021, The Journal of Nuclear Medicine.

[5]  Simon J. Vogrin,et al.  Focal cortical hypermetabolism in atypical benign rolandic epilepsy , 2020, Epilepsy Research.

[6]  David F Abbott,et al.  The epileptic network of Lennox-Gastaut syndrome , 2019, Neurology.

[7]  Ninon Burgos,et al.  New advances in the Clinica software platform for clinical neuroimaging studies , 2019 .

[8]  Dong Seok Kim,et al.  Long-term Outcome of Resective Epilepsy Surgery in Patients With Lennox-Gastaut Syndrome , 2018, Pediatrics.

[9]  N. Dosenbach,et al.  The frontoparietal network: function, electrophysiology, and importance of individual precision mapping , 2018, Dialogues in clinical neuroscience.

[10]  N. Stence,et al.  Significance of FDG-PET Hypermetabolism in Children with Intractable Focal Epilepsy , 2018, Pediatric Neurosurgery.

[11]  D. Hessl,et al.  Standardized Assessment Accommodations for Individuals with Intellectual Disability , 2018, Contemporary School Psychology.

[12]  Aaron E. L. Warren,et al.  Thalamocortical functional connectivity in Lennox–Gastaut syndrome is abnormally enhanced in executive‐control and default‐mode networks , 2017, Epilepsia.

[13]  Aaron E. L. Warren,et al.  Cognitive network reorganization following surgical control of seizures in Lennox‐Gastaut syndrome , 2017, Epilepsia.

[14]  Edouard Hirsch,et al.  ILAE classification of the epilepsies: Position paper of the ILAE Commission for Classification and Terminology , 2017, Epilepsia.

[15]  David F Abbott,et al.  Abnormal cognitive network interactions in Lennox‐Gastaut syndrome: A potential mechanism of epileptic encephalopathy , 2016, Epilepsia.

[16]  Thomas E. Nichols,et al.  Non‐parametric combination and related permutation tests for neuroimaging , 2016, Human brain mapping.

[17]  G. Jackson,et al.  The surgically remediable syndrome of epilepsy associated with bottom-of-sulcus dysplasia , 2015, Neurology.

[18]  Birk Diedenhofen,et al.  cocor: A Comprehensive Solution for the Statistical Comparison of Correlations , 2015, PloS one.

[19]  M. Breakspear,et al.  The connectomics of brain disorders , 2015, Nature Reviews Neuroscience.

[20]  Aaron E. L. Warren,et al.  Conceptualizing Lennox–Gastaut Syndrome as a Secondary Network Epilepsy , 2014, Front. Neurol..

[21]  Aaron E. L. Warren,et al.  Lennox‐Gastaut syndrome and phenotype: Secondary network epilepsies , 2014, Epilepsia.

[22]  M. Fulham,et al.  Metabolic Changes in Occipital Lobe Epilepsy with Automatisms , 2014, Front. Neurol..

[23]  N. Trotta,et al.  Default mode network hypometabolism in epileptic encephalopathies with CSWS , 2014, Epilepsy Research.

[24]  G. Jackson,et al.  Tonic seizures of Lennox‐Gastaut syndrome: Periictal single‐photon emission computed tomography suggests a corticopontine network , 2013, Epilepsia.

[25]  Michael R. Johnson,et al.  De novo mutations in the classic epileptic encephalopathies , 2013, Nature.

[26]  Lucie Hertz-Pannier,et al.  Optimizing statistical parametric mapping analysis of 18F-FDG PET in children , 2013, EJNMMI Research.

[27]  P. Camfield Definition and natural history of Lennox‐Gastaut syndrome , 2011, Epilepsia.

[28]  Arno Klein,et al.  A reproducible evaluation of ANTs similarity metric performance in brain image registration , 2011, NeuroImage.

[29]  K. Byth,et al.  The topography and significance of extratemporal hypometabolism in refractory mesial temporal lobe epilepsy examined by FDG‐PET , 2010, Epilepsia.

[30]  J. Cross,et al.  Lennox-Gastaut syndrome: a consensus approach on diagnosis, assessment, management, and trial methodology , 2009, The Lancet Neurology.

[31]  Stephen M. Smith,et al.  Threshold-free cluster enhancement: Addressing problems of smoothing, threshold dependence and localisation in cluster inference , 2009, NeuroImage.

[32]  A. Shetty,et al.  Implications of decreased hippocampal neurogenesis in chronic temporal lobe epilepsy , 2008, Epilepsia.

[33]  Albert Gjedde,et al.  Normalization in PET group comparison studies—The importance of a valid reference region , 2008, NeuroImage.

[34]  Jung-kyo Lee,et al.  Epilepsy surgery in a patient with Lennox–Gastaut syndrome and cortical dysplasia , 2007, Brain and Development.

[35]  C. Rowe,et al.  Positron emission tomography and epilepsy. , 2002, Molecular imaging and biology : MIB : the official publication of the Academy of Molecular Imaging.

[36]  et al.,et al.  Discrimination between Alzheimer Dementia and Controls by Automated Analysis of Multicenter FDG PET , 2002, NeuroImage.

[37]  S. Sato,et al.  Postoperative changes in cerebral metabolism in temporal lobe epilepsy. , 2000, Archives of neurology.

[38]  Otto Muzik,et al.  Is epileptogenic cortex truly hypometabolic on interictal positron emission tomography? , 2000, Annals of neurology.

[39]  Anders M. Dale,et al.  Cortical Surface-Based Analysis I. Segmentation and Surface Reconstruction , 1999, NeuroImage.

[40]  R. Robinson,et al.  Adaptive and maladaptive behaviour in children with epileptic encephalopathies: correlation with cerebral glucose metabolism , 1997, Developmental medicine and child neurology.

[41]  R. Robinson,et al.  Cortical and subcortical glucose metabolism in childhood epileptic encephalopathies , 1997, Journal of neurology, neurosurgery, and psychiatry.

[42]  R. Robinson,et al.  Focal abnormalities detected by 18FDG PET in epileptic encephalopathies. , 1996, Archives of disease in childhood.

[43]  H. Lüders,et al.  Outcome of temporal lobe epilepsy surgery predicted by statistical parametric PET imaging. , 1996, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[44]  J. Mazziotta,et al.  Hippocampal neuronal loss and regional hypometabolism in temporal lobe epilepsy , 1994, Annals of neurology.

[45]  Raman Sankar,et al.  Infantile spasms: II. Lenticular nuceli and brain stem activation on positron emission tomography , 1992, Annals of neurology.

[46]  J C Mazziotta,et al.  The lennox‐gastaut syndrome: Metabolic subtypes determined by 2‐deoxy‐2 [18F]fluoro‐d‐glucose positron emission tomography , 1987, Annals of neurology.

[47]  W. J. Brown,et al.  Pathological findings underlying focal temporal lobe hypometabolism in partial epilepsy , 1982, Annals of neurology.

[48]  H. Gastaut,et al.  Childhood Epileptic Encephalopathy with Diffuse Slow Spike‐Waves (otherwise known as “Petit Mal Variant”) or Lennox Syndrome , 1966, Epilepsia.