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Intraoperative neurophysiologic monitoring has shown a steady increase in use for surgeries in which neural structures may be at risk of injury. Some of the surgical techniques used carry inherent risks, and these risks have changed the way in which neurophysiologic monitoring has impacted patient safety and quality of care during surgical procedures. It is therefore crucial that those performing and interpreting intraoperative neurophysiologic monitoring are adequately trained. This book is a comprehensive guide to the current practice of intraoperative neurophysiology with chapters on various modalities and clinical uses. Separate chapters devoted to anesthesia, operating room environment, special considerations in pediatrics and the interpretation and reporting of neurophysiologic data are useful and complementary. Questions and detailed answers on the topics covered can be found on the accompanying website for study review. This book will be useful to the trainee as well as the neurophysiologist already in practice.
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Through real-time assessments of how the patient's nervous system is functioning throughout a surgical procedure, Neurophysiology in Neurosurgery presents vital techniques to guide surgeons in their efforts to minimize the risks of unintentional damage to healthy nervous tissue. This book provides a comprehensive overview of the most up-to-date intraoperative neurophysiological techniques and guidelines for the management of neuroanesthesia during MEP monitoring. Neurophysiology in Neurosurgery is a valuable educational tool that describes the theoretical and practical aspects of
Neuropathology --- Nervous system --- Neurophysiology. --- Intraoperative monitoring. --- Surgery.
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Thorough understanding of electricity, electronics, biophysics, neurophysiology, and neuroanatomy renders more tractable otherwise complex electrophysiologically-based targeting. The textbook integrates these subjects in a single resource. Ultimately, electrophysiological monitoring required controlling the movement of electrons in electronic circuits. Thus, the textbook begins with fundamental discussions of electrons, the forces moving electrons, and the electrical circuits controlling these forces. The forces that allow recording and analysis also permeate the environment producing interfer
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Since the first implant of a carbon microelectrode in a rat 35 years ago, there have been substantial advances in the sensitivity, selectivity and temporal resolution of electrochemical techniques. Today, these methods provide neurochemical information that is not accessible by other means. The growing recognition of the versatility of electrochemical techniques indicates a need for a greater understanding of the scientific foundation and use of these powerful tools.Electrochemical Methods for Neuroscience provides an updated summary of the current, albeit evolving, state of the art an
Electrochemical sensors. --- Neurophysiologic monitoring --- Intraoperative neurophysiologic monitoring --- Monitoring, Intraoperative neurophysiologic --- Monitoring, Neurophysiologic --- Monitoring, Neurophysiologic intraoperative --- Neurophysiologic intraoperative monitoring --- Electrochemical detectors --- Methodology. --- Intraoperative monitoring --- Chemical detectors
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Perfusion (Physiology) --- Heart, Mechanical --- Cardiopulmonary bypass --- Intraoperative monitoring --- Perfusion. --- Heart-Lung Machine. --- Cardiopulmonary Bypass. --- Monitoring, Intraoperative. --- Cardiopulmonary bypass. --- Heart, Mechanical. --- Intraoperative monitoring. --- Perfusion (Physiology)
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Evoked potentials (Electrophysiology). --- Intraoperative monitoring. --- Medical emergencies --- Surgery --- Handbooks, manuals, etc. --- Physiological aspects.
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"Upon publication, the Savage/Aronson text immediately became the definitive TEE reference. The Second Edition has been significantly reorganized to meet new demands in the market. The first section covers material relevant to the basic certification now being implemented by the American Society of Anesthesiologists and the Society of Cardiovascular Anesthesiologists. The second section, new to this edition, covers echocardiography in the critical care setting. The third section covers advanced applications relevant to the current certification. The basic perioperative echocardiography section includes new chapters on organizing education and training in perioperative echocardiography and on ultrasound for vascular access. The critical care section includes new chapters on assessment of the patient with endocarditis and using echo during resuscitation. The advanced applications in perioperative echocardiography section includes new chapters on epiaortic and epicardial imaging; endovascular management of thoracic vascular disease; transcutaneous management of valvular heart disease; and perioperative application of Strain and three-dimensional echocardiography. A companion website includes the fully searchable text and an image bank"--Provided by publisher.
Echocardiography, Transesophageal --- Heart --- Intraoperative Care. --- Intraoperative monitoring. --- Transesophageal echocardiography. --- Methods. --- Surgery.
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Perfusion (Physiology) --- Heart, Mechanical --- Cardiopulmonary bypass --- Intraoperative monitoring --- Perfusion. --- Heart-Lung Machine. --- Cardiopulmonary Bypass. --- Monitoring, Intraoperative.
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Close monitoring of patients during anesthesia is crucial for ensuring positive treatment outcomes and patient safety. The increasing availability of new technologies and the repurposing of older monitors means more patient data is at anesthesiologists' fingertips than ever before. However, this flood of options can be overwhelming. A practical resource for understanding this array of clinical monitoring options in anesthesia, this important text focuses on real-world applications in anesthesia and perioperative care. Reviewing the evidence for improved patient outcomes for monitoring technology, neurological monitoring, echocardiography systems and ultrasound are amongst the techniques covered in a head-to-toe approach. Statistics used by manufacturers to gain approval for their technology are discussed, as well as the under-appreciated risks associated with monitoring such as digital distraction. Future monitoring technologies including wearable systems are explored in depth. Focusing on applied practice, this book is an essential text for front-line healthcare professionals in anesthesia.
Anesthesia. --- Intraoperative monitoring. --- Point-of-care testing. --- Anesthesiology --- Surgical technology. --- Apparatus and instruments.
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Intraoperative neurophysiological monitoring (IOM) has proven itself a versatile technique that reduces the risks of acquiring intraoperative neurological deficits, shortens operating time, and lowers the costs of medical care and rehabilitation. It can also reduce the risks of medical malpractice suits and serve as a research tool to better understand nervous system disorders and promote improved treatments. In Intraoperative Neurophysiological Monitoring, Second Edition, the premier authority on the subject, Aage R. Møller, has extensively expanded and rewritten his highly regarded first edition to create a comprehensive, up-to-date reference on IOM techniques and their anatomical and physiological basis. In addition, the author has added new material on the monitoring of the spinal motor system, sensory systems, peripheral nerves, and in skull base surgery. Writing as a pioneer and leader in the field, Dr. Møller provides practical information about how to perform electrophysiological recordings in the operating room, interpret the results, and present them to the surgeon. Included are descriptions of methods for guiding the surgeon in such operations as microvascular decompression and the implantation of electrodes for deep brain stimulation and auditory prostheses. Methods for mapping of the cerebral cortex, the brainstem, and the spinal cord are also described, as well as practical procedures for monitoring cranial motor nerves. Practical aspects of IOM including requirements of equipment, reducing electrical and magnetic interference, and how to work with other teams in the operating room are discussed in detail. Comprehensive and up-to-date, Intraoperative Neurophysiological Monitoring, Second Edition, is an authoritative survey of the theoretical and practical knowledge needed to reduce the risks that occur in surgical operations impacting the nervous system.
Neurophysiologic monitoring. --- Evoked potentials (Electrophysiology) --- Cortical evoked potentials --- Event-related brain potentials --- Event-related potentials (Electrophysiology) --- Evoked cortical potentials --- Electroencephalography --- Electrophysiology --- Intraoperative neurophysiologic monitoring --- Monitoring, Intraoperative neurophysiologic --- Monitoring, Neurophysiologic --- Monitoring, Neurophysiologic intraoperative --- Neurophysiologic intraoperative monitoring --- Intraoperative monitoring
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