Bridging the gap between engineering and physiology, this pioneering volume explains the essential concepts needed to detect, understand, process, and interpret EMG signals using non-invasive electrodes.
Electromyography shows how engineering tools such as models and signal processing methods can greatly augment the insight provided by surface EMG signals. Topics covered include: Basic physiology and biophysics of EMG generation Needle and surface electrode detection techniques Signal conditioning and processing issues Single- and multi-channel techniques for information extraction Development and application of physical models Advanced signal processing techniques With its fresh engineering perspective, Electromyography offers physiologists, medical professionals, and students in biomedical engineering a new window into the far-reaching possibilities of this dynamic technology.
With this book, Vladimir Golovchinsky presents the first evidence of double-crush syndrome as a subgroup of these. To date the existence of double-crush syndrome has been a matter of debate.
Golovchinsky presents a statistical analysis of substantial clinical material, which finds a cause-and-effect relationship between cervical or lumbar radiculopathy and peripheral entrapment in corresponding nerves, thus proving the existence of double-crush syndrome.
This book will be invaluable to physicians performing EMG-NCV testing and to other healthcare professionals who encounter peripheral entrapment syndromes in their practices. It contains charts, tables, diagrams, and illustrations that present key facts and points essential for day-to-day patient care. Coverage encompasses all disorders, diagnostic tests, and treatment modalities and includes a pharmacopeia.
The Physical Medicine and Rehabilitation Pocketpedia is also available electronically for your handheld computer. See PDA listing for details. Author : Jay M. This unique, pocket-sized manual offers expert guidance on the most common conditions encountered in daily practice, with clear illustrations showing the correct needle placement for each condition.
Features at-a-glance tables of complex information for quick and easy reference and a new, all-inclusive chart that includes electrodiagnostic findings in specific disorders. Depicts precise needle placement through clear, computer-generated illustrations. Topics covered include: Basic physiology and biophysics of EMG generation Needle and surface electrode detection techniques Signal conditioning and processing issues Single- and multi-channel techniques for information extraction Development and application of physical models Advanced signal processing techniques With its fresh engineering perspective, Electromyography offers physiologists, medical professionals, and students in biomedical engineering a new window into the far-reaching possibilities of this dynamic technology.
The Physical Medicine and Rehabilitation Pocketpedia is a pocket-sized, quick-reference tool for the busy resident or clinician. It contains charts, tables, diagrams, and illustrations that present key facts and points essential for day-to-day patient care. Coverage encompasses all disorders, diagnostic tests, and treatment modalities and includes a pharmacopeia. The Physical Medicine and Rehabilitation Pocketpedia is also available electronically for your handheld computer.
See PDA listing for details. Thoroughly revised and updated text and references Each chapter deals with the Indian perspective of epidemiology, clinical presentations and prevalent management principles, pointing out the differences and similarities with world literature More diagrams, figures and tables are added to make the text self-explanatory Headache Tumours of Central Nervous System.
Note to Readers: Publisher does not guarantee quality or access to any included digital components if book is purchased through a third-party seller. Every chapter in the fourth edition has been rigorously evaluated and refreshed to ensure that the information is accurate and up to date. Sections on cancer treatment and rehabilitation, rheumatologic disease, and ultrasound have been significantly upgraded to incorporate new board requirements and changes in criteria for diagnosis and management.
Board pearls are indicated with an open-book icon to highlight key concepts and flag important clinical and board-eligible aspects of each topic. The topics are divided into major subspecialty areas written by author teams with clinical expertise in the subject and reviewed by senior specialists in each area.
More than signature illustrations—now with color added—clarify and reinforce concepts. In addition to its proven value as the primary resource for Board preparation and MOC, the book is also a trusted clinical reference for day-to-day practice needs. New to the Fourth Edition: Thoroughly reviewed, revised, and updated to reflect current practice and core knowledge tested on Boards Significant upgrades to ultrasound content Expanded sections on cancer treatments and rehabilitation along with rheumatologic guidelines and treatments, including new criteria for diagnosis Addition of color to highlight artwork and content areas Key Features: Board "Pearls" are highlighted with an open-book icon to flag key concepts and stress high-yield aspects of each topic Covers all topics on the content outlipne for the Self-Assessment Examination for Residents SAE-R used by residents nationwide Authored by physicians with special interest and expertise in their respective areas and reviewed by senior specialists in those areas Organizes information in outline format and by topic for easy reference Includes over detailed illustrations to clarify concepts Provides updated epidemiologic and statistical data throughout.
Clinical Neurophysiology: Diseases and Disorders, the latest release in the Handbook of Clinical Neurology series, reviews the current practice of clinical neurophysiology in the laboratory, by the bedside, and in the operating room or intensive care unit.
The volume is organized into sections focused on diseases of the central and peripheral nervous systems, sleep disorders, and autonomic disorders. Among the CNS topics covered are epilepsy, altered states of consciousness, disorders of cognition, brain death, demyelinating diseases, stroke, pain, movement disorders, vestibular disease, and auditory disorders.
Peripheral nervous system topics include focal mononeuropathies, generalized polyneuropathies, muscle diseases, hyperexcitability states, neuromuscular junction disorders, anterior horn cells diseases, and cranial neuropathies. There are also chapters on sleep apneas, hypersomnias, parasomnias, and circadian rhythm disorders.
Autonomic topics include primary autonomic failure, multisystem atrophy, and postural orthostatic tachycardia syndrome. Provides an up-to-date review on the practice of the neurophysiological techniques used in the assessment of neurological diseases Explores the electrophysiological techniques used to better understand neurological function and dysfunction of the central and peripheral nervous systems Discusses monitoring neurologic function in the intensive care unit and the assessment of suspected brain death Includes discussions of various newer techniques, including functional brain mapping, stereo EEG, motor evoked potentials, magnetoencephalography, laser evoked potentials, and transcranial magnetic stimulation.
Designed for the busy clinician, this pocket-sized powerhouse provides quick access to charts, tables, diagrams, and illustrations to give you fast facts essential for day-to-day patient care.
This reference text consists of contributed chapters by specialists directly carrying out research and development in this emerging field which joins advanced microelectronics with modern biotechnology. Chapters present novel biotechnology-based microelectronic instruments, such as those used for de. Author : Joel A. Author : Hang J. Lee,Joel A. Author : Terri M. Author : Dr. Sara J. Author : Jay M. Weiss,Lyn D.
Weiss,Julie K. Lisa , By author Etc. Description The Third Edition of the definitive reference manual provides expert guidance for performing motor and sensory nerve conduction velocity and latency studies, as well as repetitive stimulation of motor nerves. In nearly twenty chapters, this accessible guide describes each nerve conduction technique step by step, complemented by detailed illustrations showing the location of active, reference, ground, and stimulating electrodes.
The book provides ready access to standardised values for these studies and covers nerves both commonly and uncommonly tested in the EMG laboratory. Included are new sections on itraoperatice monitoring using somatosensory evoked potentials; auditory and visual evoked potentials; magnetoelectric stimulation; the motor unit action potential analysis; and single fiber EMG.
The book's extensive coverage begins with the cranial nerves and cervical plexus, continues with nerves of the upper extremity, then the intercostal nerves, then the nerves of the lower extremity. This is followed by reflexes, late waves and long latencies; conduction studies in premature infants and children; and repetitive stimulation. Product details Format Spiral bound pages Dimensions x x Table of contents Part 1 Introduction: basic nerve conduction studies - general information; techniques - general considerations; technical procedures; troubleshooting; temperature effects on nerve conduction velocities and latencies; other variability in nerve conduction velocities and common sources of error.
Part 2 Cranial nerves: facial nerve distal motor latency to the nasalis muscle orbicularis oris; facial nerve distal motor latency to the orbicularis oris; hypoglossal motor nerve conduction latency. Part 3 Cervical plexus: greater nerve conduction; spinal accessory nerve motor latency; phrenic nerve motor. Part 5 Intercostal nerve motor latency: intercostal nerve distal latency and conduction velocity. Part 6 Lower extremity nerves. Part 7 Reflex, wave and long latency. Part 8 Motor nerve conduction velocity studies in premature infants, infants and children.
Part 9 Repetitive stimulation. Part 10 Somatosensory evoked potentials. Part 11 Movement-related potentials. Part 12 Intraoperative monitoring using somatosensory evoked potentials.
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