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In this book, leading world authorities on brain edema and neurological disorders/injuries and experts in preconditioning join forces to discuss the latest progress in basic sciences, translational research, and clinical management strategies relating to these conditions. The range of topics covered is wide, including microglia, energy metabolism, trace metals and ion channels, vascular biology, cellular treatment, hemorrhagic stroke, novel technological advances, anesthesia and medical gases, pediatric brain edema, neuroimaging, behavioral assessment, clinical trials, peripheral to central signaling pathways, preconditioning translation, and animal models for preconditioning and brain edema research. The book comprises presentations from Brain Edema 2014, the joint meeting of the 16th International Conference on Brain Edema and Cellular Injury and the 3rd Symposium on Preconditioning for Neurological Disorders, held in Los Angeles on September 27–30, 2014.
Brain Edema: From Molecular Mechanisms to Clinical Practice brings together the most widely recognized experts in experimental and clinical brain edema research to review the current knowledge gathered on the molecular and cellular pathophysiology and clinical management of brain edema. This timely book also discusses future directions of research and treatment. Brain edema is an integral and acutely life-threatening part of the pathophysiology of multiple cerebral and non-cerebral disorders, including traumatic brain injury, cerebral ischemia, brain tumors, cardiac arrest, altitude sickness and liver failure. Affecting millions worldwide, research over the past few years has shown that a plethora of complex molecular and cellular mechanisms contribute to this pathological accumulation of water in the brain parenchyma. In parallel, the development of new neuroimaging tools has provided a new way to examine how edema develops longitudinally and in real time, both in pre-clinical models and in patients. Despite intense research over the past few decades, therapeutic options are still limited and sometimes not effective. Presents a comprehensive understanding of the molecular mechanisms involved in edema formation and resolution Discusses the specific role of edema development in several pathologies, including traumatic brain injury, stroke, brain tumors, cardiac arrest, and liver failure Proposes a new classification of edema based on molecular processes Discusses clinical management of new clinical trials coming from pre-clinical studies Addresses the possible link between edema formation, other molecular and cellular processes, including inflammation and neuroinflammation
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The first international symposium on brain edema was held in Vienna/ Austria in 1965 followed by altogether eight meetings since. The most recent was organized in Y okohama by the Department of Neurosurgery of the Musashino Red Cross Hospital, Tokyo. The continuing interest of both, clinicians and experimental scientists alike may be attributable to the fact that brain edema is a common denominator of many cerebral disorders, which under acute conditions threatens life and weIl-being of afflicted patients. Although progress in understanding as weIl as treatment can be recognized since 1965 many problems remain, particularly concerning the control of brain edema under acute conditions, as in trauma or ischemia. A quantum leap was the distinction of the cytotoxic and vasogenic brain edema prototypes as advanced by Igor Klatzo, providing for transition from a morphological to functional understanding now. The recent brain edema meetings were certainly benefiting from developments of both, molecular neurobiology on the one hand side and functional brain imaging at an ever-increasing resolution on the other, such as magnetic resonance imaging orpositron emission tomography. The international symposium in San Diego 1996 may witness further breakthroughs, hopefully also of effective treatment modalities. The symposium in Y okohama was dedicated to the "Legacy of 28 Years of Brain Edema Research" as a reminder of accomplishments as weIl as remaining challenges.
Newly streamlined and focused on quick-access, easy-to-digest content, Mulholland and Greenfield’s Surgery: Scientific Principles & Practice, 7th Edition, remains an invaluable resource for today’s residents and practicing surgeons. This gold standard text balances scientific advances with clinical practice, reflecting rapid changes, new technologies, and innovative techniques in today’s surgical care. New lead editor Dr. Justin Dimick and a team of expert editors and contributing authors bring a fresh perspective and vision to this classic reference.
Our understanding of human neuro-anatomy, and ability to safely access lesions in complex locations, are in continuous evolution. The subcortical white matter space is among the most intricate, yet least understood, regions of the brain, with regards to its billions of connections and the subtle clinical and clinical functions it subserves. Neurosurgical procedures in the subcortical space and intraventricular system have been traditionally very difficult due to their depth, the need for brain retraction, and limited understanding and imaging capability of this region. Common lesions encountered in the subcortical space include brain metastases, gliomas, and intracerebral hemorrhage. Surgical access to this region has classically been hindered, and is highly limited by evolving technological applications to medicine and surgery. Traditionally, the technology (optics, imaging, resection devices, illumination) needed to perform safe subcortical surgery was not commensurate with the surgeon’s needs. Over the past decade, major strides in our ability to image, navigate, and safely access subcortical tumors and other lesions have been made. These include parafascicular, trans-sulcal approaches that may be channel-based to provide safe retraction of the cortical and subcortical matter. A confluence of optical, computational and mechanical technology have greatly enabled our ability to treat such lesions, and include advanced MR imaging such as diffusion tractography, neuronavigation, channel-based access ports, exoscopic visualization, fiber-optic illumination, and novel resection devices. Parafascicular, channel-based subcortical surgery is a relatively new field with evolving indications and approaches that promises to evolve considerably over the next several decades. We aim to develop the first comprehensive reference text compiling the known evidence and experience from expert practitioners in the field of subcortical parafascicular surgery. This book will provide a major foundation for future development of the field, and be a first and definitive reference for decades to come. Subcortical Neurosurgery: Open and Parafascicular Channel-Based Approaches for Subcortical and Intraventricular Lesions will be the definitive reference on surgery of the subcortical region. It will comprehensively discuss all aspects of treatment of subcortical and intraventricular lesions, including neuroanatomy and neuroimaging of the subcortical space, principles of parafascicular subcortical channel-based surgery, common indications and approaches, and focused chapters for common subcortical lesions. The first section of the reference focuses on the intricate anatomy and neuro-imaging of the subcortical space and ventricular system, with special emphasis on intricate white matter tracts and diffusion tractography imaging. The next section of the book discusses principles of both open and parafascicular, channel-based approaches to subcortical and intraventricular lesions, in addition to workhorse approaches to common subcortical compartments. Finally, specific pathological subcortical lesions that can be commonly addressed via parafascicular channel-based approaches, including brain metastases, gliomas, and intracerebral hemorrhage will be addressed. Authored by experts in the field of subcortical neurosurgery, this book was developed to provide a unique, comprehensive text for neurosurgeons, neuro-radiologists, and trainees from a variety of specialties interested in evolving minimally disruptive access and treatment of the subcortical space.
Animal Models for the Study of Human Disease, Second Edition, provides needed information on model sharing, animal alternatives, animal ethics and access to databanks of models, bringing together common descriptions of models for busy researchers across biomedical and biological sciences. Offering easily searchable advantages and disadvantages for each animal model and organized by disease topics, this resource aids researchers in finding the best animal model for research in human disease. Organized by disease orientation for ease of searchability Provides information on locating resources, animal alternatives, and animal ethics Covers a broad range of animal models used in research for human disease Contributed by leading experts across the globe Expanded coverage of diabetes and neurological diseases
Traumatic brain injury (TBI) remains a significant source of death and permanent disability, contributing to nearly one-third of all injury related deaths in the United States and exacting a profound personal and economic toll. Despite the increased resources that have recently been brought to bear to improve our understanding of TBI, the developme