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A thorough understanding of electricity, electronics, biophysics, neurophysiology, and neuroanatomy is important to render more tractable, and otherwise complex, electrophysiologically-based targeting in the brain during operative manipulations. Most importantly, electrophysiological monitoring requires controlling the movement of electrons in electronic circuits in order to prevent irreversible damage. This new textbook presents a fundamental discussion of electrons, the forces moving these electrons, and the electrical circuits controlling these forces. The forces that allow recording and analysis also permeate the environment producing interference, such as noise and artifacts. Intraoperative Neurophysiological Monitoring for Deep Brain Stimulation discusses how to avoid or suppress noise and artifacts for the most successful surgical outcome.
Intraoperative Neurophysiologic Monitoring, Second Edition, contains chapters related to the monitoring of the spinal motor system and deep brain stimulation have been added. The anatomical and physiological basis for these techniques are described in detail as are the practical aspects of such monitoring. Chapters on monitoring of sensory systems and monitoring in skull base surgery have been re-written as has the chapter on monitoring of peripheral nerves.
This widely praised, first-of-its-kind book has been thoroughly updated, expanded, and enriched with extensive new case material, illustrations, and link-outs to multimedia, practice guidelines, and more. Written and edited by outstanding world experts, this was the first and remains the leading single-source volume on intraoperative neurophysiological monitoring (IOM). It is aimed at graduate students and trainees, as well as members of the operative team, including anesthesiologists, technologists, neurophysiologists, surgeons, and nurses. Now commonplace in procedures that place the nervous system at risk, such as orthopedics, neurosurgery, otologic surgery, vascular surgery, and others, effective IOM requires an unusually high degree of coordination among members of the operative team. The purpose of the book is to help students, trainees, and team members acquire a better understanding of one another’s roles and thereby to improve the quality of care and patient safety. From the reviews of the First Edition: “A welcome addition to reference works devoted to the expanding field of nervous system monitoring in the intraoperative period... will serve as a useful guide for many different health care professionals and particularly for anesthesiologists involved with this monitoring modality...An excellent reference...[and] a helpful guide both to the novice and to the developing expert in this field.” ‐‐Canadian Journal of Anesthesia “Impressive... [The book] is well written, indexed, and illustrated...The chapters are all extensively referenced. It is also very good value at the price....I would recommend this book to all residents and especially to all neuroanesthesiologists. It will make a worthwhile addition to their library.” ‐‐Journal of Neurosurgical Anesthesiology
Neurophysiologic intraoperative monitoring (IOM) neurologic monitoring during complex operative procedures is increasingly used to help prevent damage to the nervous system during surgery. Intraoperative Neurophysiology discusses all aspects of IOM with a hands- on approach to this challenging and exciting new frontier. Everything is covered from set-up, monitoring and mapping, troubleshooting, interpretation of results, and medical management. Interweaving contributions from neurologists and surgeons, the book presents a practical integrated blueprint for effective neurophysiological testing in the operating theater. Intraoperative Neurophysiology is visual and comprehensive in scope and coverage. It begins by reviewing basic neurophysiologic and neuroanatomic knowledge and presents detailed technical information on each basic test, providing the foundation necessary for choosing the right test and customizing monitoring and mapping according to the specifics of individual surgical procedures. Intraoperative Neurophysiology utilizes a unique structure to provide insights into successful monitoring practices and techniques. The book uses the steps of each surgical procedure as the skeleton upon which the IOM procedure is built, thereby presenting a developmental step-by-step approach to IOM procedures and the possible complications and pitfalls - that may arise at different moments of the surgery. In addition, it promotes and encourages the use of EEG in the operating room, and offers unprecedented coverage of ECoG, functional mapping, and EEG monitoring. With over 275 illustrations, numerous tables, and the most important clinical points made in writing and exemplified graphically, Intraoperative Neurophysiology: Monitoring and Mapping delivers in words and pictures everything one needs to know to master the art and science of intraoperative neurophysiologic procedure and reduce the operative risk of neurological damage in surgical patients.
The third edition of this classic text again provides practical, comprehensive coverage of the anatomical and physiological basis for intraoperative neurophysiological monitoring. Written by a leading authority in the field, Dr. Aage Moller has updated this important title to again offer all the leading-edge knowledge needed to perform electrophysiological recordings in the operating room, to interpret the results, and to present the results to the surgeon. The field known as "intraoperative monitoring" has expanded rapidly to cover other uses of neurophysiology and electrophysiologic recordings during surgical operations that affect the brain, spinal cord, and other parts of the nervous system. These new areas are covered in this new edition. To better represent the content of the book and the field as it now stands, many of the chapters have been revised and new material has been added. While the general organization of the book is maintained, chapters such as monitoring of motor systems have been revised and extended with new material, including more detailed description of the anatomy and physiology of motor systems and new information about intraoperative monitoring.
This second edition devotes almost 1000 pages to IOM. The first section covers basic science aspects to understand the generation of electro-physiologic signals and the anatomic structures involved. Then it follows a detailed description of ALL the techniques currently available. The last part covers the different types of surgical procedures where IOM may be needed
A practical guide to best practice in managing the perioperative care of pediatric neurosurgical patients.
Vascular malformations of the brain and spine pose many management challenges. This text provides a comprehensive, state-of-the-art review of the natural history, treatment options, and outcomes of patients with these conditions. Despite their relative rarity, these lesions are responsible for devastating injury to individuals and can cause an enduring physical, psychological, and economic burden on patients and families. Many new therapeutic options are now available with the advent of novel surgical, endovascular, and radiosurgical techniques. The basic sciences have fuelled development of small molecule and biologic therapies targeting the molecular basis of disease. Authored by international experts in the fields of neurosurgery, neurology, radiology, and radiation oncology, this book provides state-of-the-art treatment plans and discussions of ideal therapy. This text is aimed at practitioners in the fields of neurology, neurosurgery, neuroradiology, radiation oncology, rehabilitation medicine and allied fields who care for patients with brain and spinal vascular malformations.
Intraoperative Neurophysiological Mapping of the Brain. This book is a quick reference guide to anyone who is interested in the intraoperative neurophysiological concepts and technical details of sensory, motor, and language mapping during brain surgeries. These chapters are separated for sensory mapping, cortical and subcortical mapping, and language mapping techniques. You will find the stimulation and recording parameters as well.
Deep Brain Stimulation (DBS) is a remarkable therapy for an expanding range of neurological and psychiatric disorders. In many cases it is better than best medical therapy and succeeds even when brain transplants fail. Yet despite the remarkable benefits, many physicians and healthcare professionals seem hesitant to embrace this therapy. Post-operative programming of the DBS systems seems unfamiliar, even mysterious, and is viewed as difficult and time consuming. However, DBS programming is rational and can be efficient and effective if one understands the basing underlying concepts of electronics, electrophysiology, and the relevant regional anatomy. Even these principles can be relatively easy to grasp. The book helps the reader to obtain an intuitive understanding of the basic principles of electronics, electrophysiology and the relevant regional anatomy through the use of readily understood metaphors and numerous illustrations. In addition a number of tools are provided including algorithms to ensure efficient and thorough programming. Forms are provided to help with documentation. In addition, DBS related research provides a remarkable tool to understand how the brain works and what happens in diseases such as Parkinson's disease. Already long cherished theories of the pathophysiology of Parkinson's disease must be abandoned. Indeed, these DBS derived insights suggest fundamental revisions of theories of brain function are in order. The book provides an introduction to where some of the new theories may lead particularly with the growing awareness of the importance of oscillations in the brain's activities. The brain has more in common with electrical devices, such as computers, than it does to a stew of chemicals. DBS operates at the electrical level in the brain, which is fundamental to how the brain creates, manipulates and conveys information and may indeed be fundamental to the misinformation the results in the dysfunction related to disorders of the brain. For downloadable forms and other relevant material, please visit: http://www.uab.edu/DBS_PrinciplesAndPractice