Focal epilepsy caused by single cerebral cavernous malformation (CCM) is associated with regional and global resting state functional connectivity (FC) disruption

•To our knowledge, this is the first study to report resting state functional connectivity (FC) abnormalities associated with focal epilepsy caused by a single cerebral cavernous malformation (CCM).•We show, by comparing to the data acquired from the age and gender matched control group, that this t...

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Bibliographic Details
Published in:NeuroImage clinical 2019-01, Vol.24, p.102072-102072, Article 102072
Main Authors: D'Cruz, Jason, Hefner, Matthew, Ledbetter, Christina, Frilot, Clifton, Howard, Brady, Zhu, Peimin, Riel-Romero, Rosario, Notarianni, Christina, Toledo, Eduardo Gonzalez, Nanda, Anil, Sun, Hai
Format: Article
Language:English
Subjects:
Adolescent
Adult
Aged
Brain - diagnostic imaging
Brain - physiopathology
Brain - surgery
Brain connectomics
Case-Control Studies
Central Nervous System Neoplasms - complications
Central Nervous System Neoplasms - diagnostic imaging
Central Nervous System Neoplasms - physiopathology
Central Nervous System Neoplasms - surgery
Cerebral cavernous malformation
Default mode network
Drug Resistant Epilepsy - diagnostic imaging
Drug Resistant Epilepsy - etiology
Drug Resistant Epilepsy - physiopathology
Drug Resistant Epilepsy - surgery
Epilepsies, Partial - diagnostic imaging
Epilepsies, Partial - etiology
Epilepsies, Partial - physiopathology
Epilepsies, Partial - surgery
Epileptogenic zone
Female
Focal epilepsy
Functional connectivity
Functional Neuroimaging
Hemangioma, Cavernous, Central Nervous System - complications
Hemangioma, Cavernous, Central Nervous System - diagnostic imaging
Hemangioma, Cavernous, Central Nervous System - physiopathology
Hemangioma, Cavernous, Central Nervous System - surgery
Humans
Magnetic Resonance Imaging
Male
Middle Aged
Neural Pathways - diagnostic imaging
Neural Pathways - physiopathology
Neurosurgical Procedures
Regular
Resting state functional MRI
Young Adult
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Summary:•To our knowledge, this is the first study to report resting state functional connectivity (FC) abnormalities associated with focal epilepsy caused by a single cerebral cavernous malformation (CCM).•We show, by comparing to the data acquired from the age and gender matched control group, that this type of focal epilepsy is associated with the disruption of the normal regional and global FC. The disruption includes a decrease in the coactivation between the region surrounding the CCM lesion, i.e., the lesional region, and its homotopic counterpart, a reduction in FC between the lesional region and the rest of the brain, and decreased FC among the default mode network (DMN).•These changes may be alleviated or reversed after the surgical resection of the CCM and the epileptogenic zone has successfully stopped recurrent seizures.•Finally, the severity of the FC disruption in the brain tissue adjacent to the CCM may be used to delineate the epileptogenic zone and to aid the surgical resection. Epilepsy, including the type with focal onset, is increasingly viewed as a disorder of the brain network. Here we employed the functional connectivity (FC) metrics estimated from the resting state functional MRI (rsfMRI) to investigate the changes of brain network associated with focal epilepsy caused by single cerebral cavernous malformation (CCM). Eight CCM subjects and 21 age and gender matched controls were enrolled in the study. Seven of 8 CCM subjects underwent surgical resection of the CCM and became seizure free and 4 of the surgical subjects underwent a repeat rsfMRI study. We showed that there was both regional and global disruption of the FC values among the CCM subjects including decreased in homotopic FC (HFC) and global FC (GFC) in the regions of interest (ROIs) where the CCMs were located. There was also the disruption of the default mode network (DMN) especially the FC between the middle prefrontal cortex (MPFC) and the right lateral parietal cortex (LPR) among these individuals. We observed the trend of alleviation of these disruptions after the individual has become seizure free from the surgical resection of the CCM. Using a voxel-based approach, we found the disruption of the HFC and GFC in the brain tissue immediately adjacent to the CCM and the severity of the disruption appeared inversely proportional to the distance of the brain tissue to the lesion. Our findings confirm the disruption of normal brain networks from focal epilepsy, a process that ma
ISSN:2213-1582
2213-1582
DOI:10.1016/j.nicl.2019.102072