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New Techniques for Management of 'Inoperable' Gliomas radically challenges the assumption that certain gliomas cannot be removed with modern techniques, contesting stereotypical thinking and establishing new paradigms in the field. Gliomas are primary brain tumors which are often fatal. Recent data has demonstrated that despite the fact that surgery cannot cure gliomas, patient survival is substantially improved by removing as much of the tumor as possible. This fact has raised the imperative that neurologists try to improve techniques to bring surgical resection to as many patients as possible. This book brings new insights and technologies to the forefront, giving hope to patients. - Provides the first comprehensive book to discuss techniques for removing gliomas that are traditionally deemed 'inoperable' - Presents a great reference tool that challenges stereotypical thinking by offering techniques by innovative surgeons - Includes chapters that are organized by different glioma types and surgery/techniques
Standard therapy for high grade glioma is a topic that is evolving, timely, and relevant. Guest Editors Isaac Yang, MD and Seunggu Han, MD have assembled a group of experts to highlight the latest updates on various forms of management of high grade glioma. Some of the articles included in this issue focus on Extent of Resection for Glioblastoma; Role of adjuvant radiation therapy; Survival benefit of the Temozolomide protocol; Alternative chemotherapeutic agents; The role of avastin; Radiology; Pseuodprogression and Treatment effect; Pathology; Medical Management; Management of insular gliomas; Use of motor mapping; GBM treatment with clinical trials for surgical resection; Clinical trials with immunotherapy; Clinical trials for small molecule inhibitors; Future role of CED for GBM treatment; Application of a vault nanoparticle therapy for GBM therapy; Management of high grade gliomas in pediatric populations; Targeting Glioma Stem Like Cells with a focus on CD 133; and Potential Role for STAT3 inhibitors in glioblastoma.
Standard therapy for high grade glioma is a topic that is evolving, timely, and relevant. Guest Editors Isaac Yang, MD and Seunggu Han, MD have assembled a group of experts on management of high grade glioma. Some of the articles in this issue include: Use of language mapping to aid resection of eloquent gliomas; Clinical trials with immunotherapy; Clinical trials for small molecule inhibitors; Nanotechnology potential applications for GBM therapy; High Grade Gliomas in children; Modern Advances in Brain Tumor Treatments; Molecular pathways of Avastin interactions for the treatment of glioblastoma; and Quality of Life and Outcomes in Glioblastoma management.
This book, now in its second edition, provides a comprehensive overview of current re-irradiation strategies, with detailed discussion of re-irradiation methods, technical aspects, the role of combined therapy with anticancer drugs and hyperthermia, and normal tissue tolerance. In addition, disease specific chapters document recent clinical results and future research directions. All chapters from the first edition have been revised and updated to take account of the latest developments and research findings, including those from prospective studies. Due attention is paid to the exciting developments in the fields of proton irradiation and frameless image-guided ablative radiotherapy. The book documents fully how refined combined modality approaches and significant technical advances in radiation treatment planning and delivery have facilitated the re-irradiation of previously exposed volumes, allowing both palliative and curative approaches to be pursued at various disease sites. Professionals involved in radiation treatment planning and multimodal oncology treatment will find it to be an invaluable aid in understanding the benefits and limitations of re-irradiation and in designing prospective trials.
Radiomics and Radiogenomics: Technical Basis and Clinical Applications provides a first summary of the overlapping fields of radiomics and radiogenomics, showcasing how they are being used to evaluate disease characteristics and correlate with treatment response and patient prognosis. It explains the fundamental principles, technical bases, and clinical applications with a focus on oncology. The book’s expert authors present computational approaches for extracting imaging features that help to detect and characterize disease tissues for improving diagnosis, prognosis, and evaluation of therapy response. This book is intended for audiences including imaging scientists, medical physicists, as well as medical professionals and specialists such as diagnostic radiologists, radiation oncologists, and medical oncologists. Features Provides a first complete overview of the technical underpinnings and clinical applications of radiomics and radiogenomics Shows how they are improving diagnostic and prognostic decisions with greater efficacy Discusses the image informatics, quantitative imaging, feature extraction, predictive modeling, software tools, and other key areas Covers applications in oncology and beyond, covering all major disease sites in separate chapters Includes an introduction to basic principles and discussion of emerging research directions with a roadmap to clinical translation
Brain tumors comprise a spectrum of histological patterns. Their presentation and management depend on their location, size, and grade of lesions. This book is a collection of high-quality research work from global experts on brain tumors, including meningiomas, and their treatment.
In this Handbook, a team of leading experts provide a comprehensive and up-to-date overview of the ever-changing field of radiation oncology. The publication is divided into three volumes, the first of which covers basics such as radiotherapy techniques, treatment documentation, clinical radiobiology, and patient management. In the second volume, all aspects of clinical radiation therapy are discussed in depth for the full range of tumor types. In order to ensure that the reader has a full understanding of cancer management in each scenario, information is also provided on diagnosis and classification, general management principles, the role of surgical and systemic therapy, and prognosis. The third volume focuses on medical physics, covering the mathematical and computer science background, biophysics, radiation physics, instrumentation, tracer kinetic modeling, pharmacokinetics and pharmacodynamics, radiation sources and detectors, biomedical engineering, imaging techniques, radiation treatment planning, and quality assurance. This book will be invaluable for all radiation oncologists. It is published as part of the SpringerReference program, which delivers access to living editions constantly updated through a dynamic peer-review publishing process.
This book provides a comprehensive overview of brain metastases, from the molecular biology aspects to therapeutic management and perspectives. Due to the increasing incidence of these tumors and the urgent need to effectively control brain metastatic diseases in these patients, new therapeutic strategies have emerged in recent years. The volume discusses all these innovative approaches combined with new surgical techniques (fluorescence, functional mapping, integrated navigation), novel radiation therapy techniques (stereotactic radiosurgery) and new systemic treatment approaches such as targeted- and immunotherapy. These combination strategies represent a new therapeutic model in brain metastatic patients in which each medical practitioner (neurosurgeon, neurologist, medical oncologist, radiation oncologist) plays a pivotal role in defining the optimal treatment in a multidisciplinary approach. Written by recognized experts in the field, this book is a valuable tool for neurosurgeons, neuro-oncologists, neuroradiologists, medical oncologists, radiation oncologists, cognitive therapists, basic scientists and students working in the area of brain tumors.
Provides a summary of glioma biology, genetics and management, based on the world-leading Duke University Preston Robert Tisch Brain Tumor Center program.