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This book critically appraises the role and value of specific diagnostic and treatment techniques for drug-resistant, MRI-negative epilepsy. The authors present the evidence and share their expertise on the diagnostic options and surgical approaches that make epilepsy surgery possible and worthwhile in this complex and challenging condition.
Drug-resistant epilepsy with negative MRI is frequently seen in patients considered for epilepsy surgery; however, clinical evaluation and surgical treatment is very complex and challenging. Advanced imaging techniques are needed to detect the location of the epileptogenic zone. In most cases, intracranial EEG recording is required to delineate the region of seizure onset - this carries some risks of major complications. Moreover, the borders between the recorded seizure onset and the location of important brain functions are often indistinct in MRI-negative epilepsy. Overall, the outcome of MRI-negative surgery is less favorable than that of MRI-positive surgery, but it can significantly improve with optimal management. Each chapter critically appraises the role and value of specific diagnostic and treatment techniques to address the challenges of MRI-negative epilepsy surgery. Authors critique evidence and share their expertise on the diagnostic options and surgical approaches that make epilepsy surgery possible and worthwhile in patients with this condition.
This book fills the gap between the increasing demand for epilepsy surgical experience and limited training facilities in this area. It comprehensively describes surgical techniques, including tricks and pitfalls, based on the author’s 30 years of experience, providing optimal and effective training for young neurosurgeons by avoiding learning by trial and error. Moreover, it also includes useful information for epileptologists and other professionals involved in the epilepsy surgical program to allow them to gain a better understanding of possibilities and limitations of epilepsy surgery.
Perhaps the most important achievements in the field of epileptology in the past two decades have been in the neuroimaging and genetic breakthroughs as applied to patients with epilepsy. Indeed, neuroimaging has become a vital part in the study of epilepsy, affecting broad aspects of the disorder ranging from diagnosis and classification to treatment and prognosis. Neuroimaging in epilepsy encompasses many different approaches that have reached various levels of expertise across epilepsy centers worldwide. This book discusses every imaging modality used to gather information on epilepsy. Each technique is described by world experts and epilepsy centers worldwide.
This book gathers a collection of cases with challenging diagnoses, in which nuclear medicine examinations have been particularly helpful in terms of the final diagnosis or follow-up. The cases presented chiefly involve patients with neurodegenerative disorders, epilepsy and brain tumors. The book is intended for nuclear medicine specialists as well as clinicians, offering essential guidance on the interpretation of neurology cases in the clinical setting, particularly with regard to correctly interpreting diagnostic imaging procedures. The authors were selected from the members of the Neuroimaging Committee of the EANM and have extensive experience as clinicians and teachers within the Nuclear Medicine Community.
"Background. More than a third of patients with epilepsy suffer from seizures that are resistant to antiepileptic drugs. Drug-resistant epilepsy is a serious condition associated with a structural brain lesion. Temporal lobe epilepsy (TLE) secondary to mesiotemporal sclerosis and extratemporal lobe neocortical epilepsy secondary to focal cortical dysplasia (FCD) are the two most common drug-resistant epilepsies amenable to surgery. Surgical removal of the lesion is the only effective treatment to control seizures, limit their adverse effects on cognition and reduce risks of injury and death. Despite advances in MRI analytics, current algorithms are not optimized to accurately detect subtle lesions, a scenario in ~50% of referrals for pre-surgical evaluation. Since MRI criteria to localize the surgical target are missing, these "MRI-negative" patients undergo hospitalizations for invasive intracranial EEG monitoring (SEEG). Notably, a lack of objective criteria to ascribe the MRI-neg status perpetuates biases in the literature. Indeed, patients considered MRI-neg based on visual evaluation before surgery are not necessarily "non-lesional", as quantitative image analysis detects lesions on histology. Consequently, misdiagnosis or delayed diagnosis results in lower chances for post-surgical seizure freedom.Objective. To objectively define MRI-negative and develop and validate novel approaches to improve the yield of MRI to resolve hard to detect epileptogenic lesions.Methods. We first performed a systematic review and meta-analyses to assess the consistency of the criteria used to ascribe MRI-neg status in focal epilepsy (Project 1). Subsequently, we employed a bipartite approach in developing algorithms to detect FCD, which rely on the integration of multiple imaging modalities through i) surface-based sampling that provides accurate inter-subject correspondence (P2), and ii) minimally preprocessed volumetric approach that facilitates high generalization performance combining deep learning (DL) with uncertainty estimation for risk stratification (P3). Finally, we developed an algorithm for hippocampal subfield segmentation (HSS) using DL and assessed its lateralization performance in TLE (P4).Results. In P1, a systematic review of 196 studies demonstrated variability in ascribing MRI-neg status. Narrative synthesis summarized the clinical, demographic, and presurgical diagnostics profile showed that MRI-neg patients more often undergo SEEG, are less frequently operated and have a less favorable seizure outcome relative to MRI-pos. Unsupervised clustering of the diagnostic modalities revealed 3 distinct groups with significant associations across outcomes (MRI reporting/quantitation, SEEG). The metanalyses revealed favorable post-surgical seizure outcome in 72% of MRI-pos cohorts (MRI-neg: 55%), and that MRI quantitation is associated with two-fold gain in diagnostic yield over qualitative review of MRI. In P2, we developed an algorithm that leveraged MRI-derived surface-based features to accurately identify subtle FCD lesions, demonstrating excellent sensitivity (83%) and specificity (92%). In P3, we propose a novel DL algorithm with uncertainty estimation yielding the highest sensitivity (93%; 137/148 FCD detected) to date in histologically verified MRI-neg FCD cohorts sampled from 9 epilepsy centers. Finally, in P4, DeepPatch, a volumetric HSS method with patch-based analysis and DL, demonstrated Dice of >88% across hippocampal subfields in controls and TLE patients, and accurately lateralized the seizure focus in 89% of patients.Significance. Our findings advocate for a central role of MRI quantitation in pre-surgical epilepsy diagnostics. Our integrated approach combining the analysis of multiple contrasts with advanced statistical learning techniques across diverse multisite datasets is designed to create open-source generalizable algorithms with the potential for broad clinical translation with low technical debt"--
Covers all aspects of epilepsy, from basic mechanisms to diagnosis and management, as well as legal and social considerations.
Epilepsy is amongst the most frequently encountered of neurological disorders, yet its diagnosis and management is fraught with pitfalls. Issues surrounding differential diagnosis, seizure type, underlying causes, EEG interpretations, treatment options and prognoses can often trip-up clinicians. Common Epilepsy Pitfalls: Case-Based Learning, is a comprehensive guide to anticipating and managing the pitfalls in the diagnosis and management of epilepsy. Real-life cases are presented along with pragmatic recommendations for courses of action that guide the reader through accurate and effective epilepsy diagnosis and treatment. Cases have been chosen to answer key questions such as: the first seizure – is it epilepsy? Which drug? When should stopping treatment be considered? What to do in an epileptic emergency? Containing detailed coverage of psychiatric, social and family issues – and authored by world experts in epilepsy management – this text is invaluable for neurologists, internists, family practitioners and advanced medical students.
This book gives an exhaustive account of the classification and management of epileptic disorders. It provides clear didactic guidance on the diagnosis and treatment of epileptic syndromes and seizures through thirteen chapters, complemented by a pharmacopoeia and CD ROM of video-EEGs.
This open access book offers an essential overview of brain, head and neck, and spine imaging. Over the last few years, there have been considerable advances in this area, driven by both clinical and technological developments. Written by leading international experts and teachers, the chapters are disease-oriented and cover all relevant imaging modalities, with a focus on magnetic resonance imaging and computed tomography. The book also includes a synopsis of pediatric imaging. IDKD books are rewritten (not merely updated) every four years, which means they offer a comprehensive review of the state-of-the-art in imaging. The book is clearly structured and features learning objectives, abstracts, subheadings, tables and take-home points, supported by design elements to help readers navigate the text. It will particularly appeal to general radiologists, radiology residents, and interventional radiologists who want to update their diagnostic expertise, as well as clinicians from other specialties who are interested in imaging for their patient care.