This book uses the unique vignette format of the best-selling Pearls Series(R) to explore the basic principles of electroencephalography (EEG), as well as acquisition and interpretation of EEG findings. Real-life case studies-with physical findings, EEG readings, and clinical photos-show you how to recognize normal waking and sleep EEG readings as well as findings associated with the full range of epilepsy and seizure syndromes.
Why consult encyclopedic references when you only need the essentials? Practical Approach to Electroencephalography, by Mark H. Libenson, MD, equips you with just the right amount of guidance you need for obtaining optimal EEG results! It presents a thorough but readable guide to EEGs, explaining what to do, what not to do, what to look for, and how to interpret the results. It also goes beyond the technical aspects of performing EEGs by providing case studies of the neurologic disorders and conditions in which EEGs are used, making this an excellent learning tool. Abundant EEG examples throughout help you to recognize normal and abnormal EEGs in all situations. - Presents enough detail and answers to questions and problems encountered by the beginner and the non-expert. - Uses abundant EEG examples to help you recognize normal and abnormal EEGs in all situations. - Provides expert pearls from Dr. Libenson that guide you in best practices in EEG testing. - Features a user-friendly writing style from a single author that makes learning easy. - Examines the performance of EEGs—along with the disorders for which they're performed—for a resource that considers the patient and not just the technical aspects of EEGs. - Includes discussions of various disease entities, like epilepsy, in which EEGs are used, as well as other special issues, to equip you to handle more cases.
The explosion of information in neurogenetics and metabolism mandates increasing awareness of appropriate diagnostic and therapeutic strategies in the setting of certain epilepsies, especially those of very early onset. There are over 200 inherited disorders that are associated with seizures and prompt identification and intervention is crucial for a positive outcome. This text brings together leading authorities presenting state-of-the-art clinical reviews covering the science, recognition, and treatment of the inherited metabolic epilepsies and related disorders. Inherited Metabolic Epilepsies opens with a section on general principles for diagnosis and targeted intervention including screening protocols, laboratory testing, neuroimaging, seizure patterns and EEG findings, new technologies, and the ketogenic diet in metabolic epilepsies. The next two sections are devoted to the cohort of specific small molecule disorders (aminoacidopathies, organic acidopathies, mitochondrial disorders, urea cycle disorders, neurotransmitter disorders, and glucose-related disorders) and large molecule disorders (lysomal storage disorders, peroxisomal diseases, glycosylation defects, and leukodystrophies) that are treatable yet can be so vexing to clinicians and investigators. The book concludes with a clinical algorithm designed to be a resource for the physician in search of direction when considering an inherited metabolic disorder as the explanation for a patient with epilepsy. Inherited Metabolic Epilepsies Key Features: Presents the latest scientific thinking and clinical wisdom for a poorly understood group of disorders that have devastating consequences if unrecognized or not promptly treated Expert authorship from both the genetic-metabolic and epilepsy communities provides state-of-the-art guidance for understanding and managing these disorders A readable text for clinicians highlighting the relation between metabolic errors and epilepsy Concludes with a practical algorithm for evaluating a patient with a possible metabolic epilepsy
As the population ages, technology improves, intensive care medicine expands and neurocritical care advances, the use of EEG monitoring in the critically ill is becoming increasingly important. This atlas is a comprehensive yet accessible introduction to the uses of EEG monitoring in the critical care setting. It includes basic EEG patterns seen in encephalopathy, both specific and non-specific, nonconvulsive seizures, periodic EEG patterns, and controversial patterns on the ictal–interictal continuum. Confusing artefacts, including ones that mimic seizures, are shown and explained, and the new standardized nomenclature for these patterns is included. The Atlas of EEG in Critical Care explains the principles of technique and interpretation of recordings and discusses the techniques of data management, and 'trending' central to long-term monitoring. It demonstrates applications in multi-modal monitoring, correlating with new techniques such as microdialysis, and features superb illustrations of commonly observed neurologic events, including seizures, hemorrhagic stroke and ischaemia. This atlas is written for practitioners, fellows and residents in critical care medicine, neurology, epilepsy and clinical neurophysiology, and is essential reading for anyone getting involved in EEG monitoring in the intensive care unit.
This book educates the reader on the cellular and neurophysiological aspects of Electroencephalography (EEG), alongside its technical and engineering principles. Providing a background on normal EEG, the content includes the clinical applications of EEG in epilepsies and other brain disorders in order to provide the reader with the necessary knowledge to use EEG in clinical practice. Aimed at those who in the earlier stages of using EEGs, this resource provides an effective overview and offers a key resource to anyone using EEGs.
The EEG is a simple and widely available neurophysiological test that, if interpreted correctly, can provide valuable insight into the functioning of the brain. However, despite its increasing usage in a range of settings, there is a common misconception that the EEG is inherently difficult to interpret. Compounding the problem is the lack of dedicated training and no standardized approach by encephalographers. This book provides a clear and concise guide to reading and interpreting EEGs in a systematic way. Presented in three sections, the first delivers foundational technical knowledge of how EEGs work, and the second concentrates on a comprehensive, stepwise approach to reading and interpreting an EEG. The third section contains examples of EEGs in common scenarios, such as seizures and post-cardiac arrest, enabling readers to correlate their findings to clinical indications. Heavily illustrated with over 200 example EEGs, this is an essential pocket guide to interpreting these tests.
Reading EEGs: A Practical Approach focuses on pattern recognition and pattern comparison. The concepts of pattern recognition are developed in a logical fashion based on appearance rather than disease process. The book teaches waveform recognition so that the reader can generate a differential diagnosis based on that recognition. This book also incorporates a question-and-answer format that is effective for students at multiple levels of training. A unique feature of the book is that it follows a teaching methodology in which concepts are developed sequentially and logically.
Focusing on stepwise development of concepts, pattern recognition and integration with clinical practice, Reading EEGs: A Practical Approach, 2nd Edition, is an easy-to-use, readable guide to learning EEG for neurology residents, clinical neurophysiology fellows, and electroneurodiagnostic students and technologists. The emphasis on waveform recognition enables readers to interpret EEG findings accurately and place them in clinical context. The new landscape format accommodates larger high-quality images for improved study, and the distinctive question-and-answer format is highly effective for review at all levels of training.
This book contains the most essential information needed for an epilepsy/ EEG rotation. Chapters are formatted with bullet points and feature clinical pearls. Concise and easy-to-read, this quick reference provides neurology residents, clinical neurophysiology and epilepsy fellows, and other clinicians with the most critical information in epilepsy and EEG in a simplified, yet comprehensive format. Divided into two sections, the book first covers the diagnosis, characteristics, and treatment of epilepsy. The second section focuses on EEG placement, procedures, and patterns in various neurological disorders.
