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Thoroughly revised and updated for its Second Edition, this atlas remains a must-have reference for anyone performing or interpreting EEGs in adults. This new edition shows readers how to maximize the usefulness of digital EEG. Coverage of subdural EEG and EEG in the intensive care unit has been expanded. The book contains more than 500 clear, easy-to-read EEG samples depicting artifacts, normal phenomena, epileptiform abnormalities, nonepileptiform abnormalities, and EEG patterns associated with impaired consciousness. Detailed legends explain the distinguishing features and clinical significance of each pattern.
This edition combines Dr. Blume's two classic books--"Atlas of Adult EEG" and "Atlas of Pediatric EEG"--into a single resource for adult and pediatric epileptologists, neurologists, and neurology trainees.
The electroencephalogram (EEG) is essential to the accurate diagnosis of many neurologic disorders. The Second Edition of Atlas of EEG Patterns sharpens readers’ interpretation skills with an even larger array of both normal and abnormal EEG pattern figures and text designed to optimize recognition of telltale findings. Trainees will benefit from hundreds of EEG figures, helping them spot abnormalities and identify the pattern name. Experienced neurologists will find the book excellent as a quick reference and when trying to distinguish a finding from similarly appearing patterns. Organized by EEG pattern, the Atlas orients you to the basics of EEG, helps the reader identify the characteristic EEG wave features and leads you to the EEG diagnosis through a table that organizes all of the EEG patterns according to their wave features. The Atlas includes the full range of EEG patterns from the common rhythms to the rare findings, and it also includes numerous examples of artifacts.
The aim of this extensively illustrated work is to better the knowledge of visual analysis of EEGs for neurologists and other specialists who use electroencephalography as well as EEG technologists. This first volume covers the scope of the main features of physiological EEG wake and sleep activities in children and adults, activation procedures and the most commonly found artefacts. Indeed, a more thorough knowledge of these elements is necessary so as not to misinterpret them as pathological traits.
Sleep Medicine is a field that attracts physicians from a variety of clinical backgrounds. As a result, the majority of sleep specialists who interpret sleep studies (PSG) do not have specialized training in neurophysiology and electroencephalography (EEG) interpretation. Given this and the fact that PSGs usually are run at a third of the speed of EEGs and that they usually have a limited array of electrodes, waveforms frequently appear different on the PSGs compared to the EEGs. This can lead to challenges interpreting certain unusual looking activity that may or may not be pathological. This Atlas of Electroencephalograpy in Sleep Medicine is extensively illustrated and provides an array of examples of normal waveforms commonly seen on PSG, in addition to normal variants, epileptiform and non-epileptiform abnormalities and common artifacts. This resource is divided into five main sections with a range of topics and chapters per section. The sections cover Normal Sleep Stages; Normal Variants; Epileptiform Abnormalities; Non-epileptiform Abnormalities; and Artifacts. Each example includes a brief description of each EEG together with its clinical significance, if any. Setting the book apart from others in the field is the following feature: Each EEG discussed consists of three views of the same page -- one at a full EEG montage with 30mm/sec paper speed, the same montage at 10mm/sec (PSG speed) and a third showing the same thing at 10 mm/sec, but with the abbreviated PSG montage. Unique and the first resource of its kind in sleep medicine, the Atlas of Electroencephalograpy in Sleep Medicine will greatly assist those physicians and sleep specialists who read PSGs to identify common and unusual waveforms on EEG as they may appear during a sleep study and serve as a reference for them in that capacity.
This fully updated and revised, 2nd edition will significantly help the visual analysis of EEG by neurologists and other specialists as well as technologists. The book retains the format and presentation that made the first edition successful. It is the most comprehensive EEG atlas on activation procedures, artifacts and normal EEG, covering the full spectrum of normal and unusual patterns observed during wakefulness and sleep, in children and adults. Electroencephalograms are shown in their native format, exactly as they appear in daily practice. Each plate is analyzed, in order to highlight the most significant elements to be used in diagnosis and interpretation. What is new in this edition: 120 new plates out of 180 : 2/3 of the book has been renewed; More physiological rythms, more examples by element; A new and larger size of the book for a better readability; All the plates, including the ones from the first volume, have been updated, and the presentation is much more precise and practical; The principal, full-size plate presents recording speed standard at 30 mm/sec, and is then used in a second plate (figure a) at 15 mm/sec, thus offering a global, more comprehensive vision. This is the only atlas worldwide offering two speeds. All plates have been printed and scanned in high definition, which gives the book an unprecedented quality, compared to other atlases presenting a simple screenshot. All plates come from digitized recordings, compared to other atlases with analogue recordings.
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.
The third volume of the series of Atlases deals with the use and usefulness of electroencephalography (EEG) in neurology. While EEG is universally recognized as a first-order investigation method in epilepsy (see Volume 2), and as an important contributor in sleep medicine, practical neurology has tended to neglect the value of this classical and established neurophysiological tool. A rich, extensively commented and analyzed collection of EEG plates is presented here. The reader will be compelled to remember that EEG is the easiest way to assess parameters like state of vigilance, risk of seizure activity, type and degree of functional impairment, in a very clinical and practical setting. The authors cover many aspects of neurological practices where the EEG may help in diagnosis and treatment: metabolic and other encephalopathies, infectious and inflammatory conditions, vascular disorders. It is particularly useful-and difficult- to distinguish between epileptic phenomena and EEG changes associated with metabolic abnormalities: a careful assessment of the EEG is of paramount practical importance here. Migraine is not always simple and there are many overlaps with other types of neurological diseases: the EEG may play a major part in helping the clinician in doubtful cases. Similarly, the diagnosis of dementia does certainly not rest on the EEG but many particular aspects concerning diagnostic overlaps or copathologies are aptly explored by the EEG. Lastly, even the neurosurgeon may need the EEG to monitor trauma, tumor, bleeding