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Epilepsy Surgery: The Network Approach, An Issue of Neurosurgery Clinics of North America
- 1st Edition, Volume 31-3 - June 9, 2020
- Editors: Mark Richardson, Vasileios Kokkinos
- Language: English
- Hardback ISBN:9 7 8 - 0 - 3 2 3 - 7 5 6 9 8 - 3
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 7 5 6 9 9 - 0
This issue of Neurosurgery Clinics, guest edited by Dr. R. Mark Richardson and Dr. Vasileios Kokkinos, will focus on Epilepsy Surgery: The Network Approach. This issue is one of… Read more
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Request a sales quoteThis issue of Neurosurgery Clinics, guest edited by Dr. R. Mark Richardson and Dr. Vasileios Kokkinos, will focus on Epilepsy Surgery: The Network Approach. This issue is one of four selected each year by our series consulting editors, Dr. Russell R. Lonser and Dr. Daniel K. Resnick. Topics discussed in this issue will include: History of the network approach in epilepsy surgery, Networks in temporal lobe epilepsy, Networks in frontal lobe epilepsy, Networks in parietal and occipital lobe epilepsy, Structures facilitating epileptogenic network formation, Extracranial interictal and ictal EEG in sEEG planning, Ictal semiology as a tool for sEEG planning, The significance of MRI lesions in sEEG planning, Functional networks in epilepsy presurgical evaluation, Automation advances in sEEG planning, Interpretation of the intracranial sEEG signal, Electrical cortical stimulation, Epileptogenic index, Modeling the epileptogenic network, Machine learning in epilepsy surgery evaluations, Neuromodulation of epilepsy networks, and Decision-making in epilepsy surgery.
- Cover image
- Title page
- Table of Contents
- Copyright
- Contributors
- Forthcoming Issues
- Preface
- Approach to Epilepsy Networks
- History of the Network Approach in Epilepsy Surgery
- Key points
- Introduction
- Network models in epilepsy
- Epileptogenicity index
- Corticocortical evoked potentials
- Epilepsy network phenotypes
- Summary
- Networks in Temporal Lobe Epilepsy
- Key points
- Introduction
- Neurophysiologic networks
- Imaging networks
- Neuropsychiatric comorbidities
- Summary
- Networks in Frontal Lobe Epilepsy
- Key points
- Introduction
- Epilepsy network
- Frontal lobe epileptic networks: genes and signaling pathways
- Frontal lobe epileptic networks: local circuits and high-frequency oscillations
- Frontal lobe epileptic networks: whole-brain level
- Epilepsy network: phenotypical expression—seizures semiology
- Summary
- Networks in Posterior Cortex Epilepsies
- Key points
- A definition and anatomic overview
- Classification of posterior cortex epilepsies
- Anatomic considerations and functional connections
- Clinical specifics of posterior lobe epilepsies
- Surgical outcome
- Specifics in pediatrics
- Consequences for intracranial electroencephalography
- Summary
- Epileptogenic Network Formation
- Key points
- Introduction
- Epileptogenic network formation
- Epileptogenic network and epilepsy surgery
- Epileptogenic network: from interictal to ictal
- Epileptogenic network and propagation network
- Summary
- Diagnostic Surgical Planning
- Extracranial Interictal and Ictal EEG in sEEG Planning
- Key points
- Introduction
- Interictal electroencephalogram
- Ictal electroencephalogram
- Combining the interictal and ictal scalp electroencephalogram for stereoelectroencephalogram
- Case 1
- Case 2
- Case 3
- Summary
- Semiology and Epileptic Networks
- Key points
- Introduction
- The paradox of semiology
- Semiological pattern recognition
- Neural basis of seizure semiology
- Semiology as a property of dynamical systems within a multiscale framework
- How do spatial and temporal aspects of seizure discharge affect semiological expression?
- Correlating semiological patterns with epilepsy networks
- Methodological limitations of semiology analysis and correlation with stereoelectroencephalography
- Conceptual issues: corticosubcortical networks and semiological expression
- Ictal versus interictal semiology?
- Summary
- The Stereoelectroencephalography Methodology Applied to Epilepsies with a Visible Lesion
- Key points
- Introduction
- Basic principles related to the stereoelectroencephalography methodology
- Choosing stereoelectroencephalography as the appropriate method for extraoperative invasive monitoring in the lesional MRI clinical scenario
- Planning the stereoelectroencephalography implantation in patients with visible lesions on MRI
- How the existence of an MRI-identifiable structural abnormality changes the stereoelectroencephalography implantation plan
- Generic anatomofunctional corticosubcortical organization
- Summary
- Functional Networks in Epilepsy Presurgical Evaluation
- Key points
- Contribution of imaging to presurgical evaluation of drug-resistant epilepsy
- Epilepsy as a network disorder
- Methodologies to study brain networks
- Network analysis in presurgical evaluation
- Connectivity-informed seizure focus localization
- Network parameters as potential predictors of seizure outcome
- Network parameters as potential predictors of cognitive outcome
- Challenges and future perspectives
- Automation Advances in Stereoelectroencephalography Planning
- Key points
- Introduction
- Model generation
- Automated trajectory planning considerations
- Postimplantation functionality
- Clinical applications of computer-assisted planning
- Future developments
- Summary
- Therapeutic Surgical Planning
- Interpretation of the Intracranial Stereoelectroencephalography Signal
- Key points
- Introduction
- Principles
- Interpretation of intracranial electroencephalogram
- Electrical Cortical Stimulation: Mapping for Function and Seizures
- Key points
- Introduction
- History of functional mapping with electrical stimulation
- Methods of functional electrical mapping
- Clinical responses depending on the stimulated area
- Functional electrical stimulation in children
- After-discharges and stimulation induced seizures for localization of epileptogenic cortex
- Summary
- Epileptogenicity Mapping: A Quantitative Approach to Identify the Seizure Onset
- Key points
- Introduction
- Materials required to map seizure networks from intracranial electroencephalogram
- Methods
- Case study using brainstorm software
- Epileptogenicity mapping and semiology correlation
- Summary
- Neuromodulation of Epilepsy Networks
- Key points
- History of neuromodulation
- Neuromodulation devices
- Clinical utility of closed-loop neuromodulation
- Mechanisms of action in closed-loop neuromodulation
- Challenges in closed-loop neurostimulation
- Off-label usage of closed-loop neuromodulation
- Summary
- Decision Making in Epilepsy Surgery
- Key points
- Introduction
- Decision points
- Summary
- No. of pages: 240
- Language: English
- Edition: 1
- Volume: 31-3
- Published: June 9, 2020
- Imprint: Elsevier
- Hardback ISBN: 9780323756983
- eBook ISBN: 9780323756990
MR
Mark Richardson
Mark Richardson, Lecturer at Monash University, leads research in transitioning to transportation design and production to become more sustainable, resilient, and accessible. He is a former Senior Designer for the Ford Motor Company.
Affiliations and expertise
Lecturer, Monash University