Glioma Signaling is a text reference on cellular signaling processes focused on the mechanism of nucleotide receptors activation by exogenic nucleotides and the formation of complex signaling cascades, including cytoplasmic transcription factors, induced by growth factors, cytokines and cannabinoids. The book provides a framework explaining how signal transduction elements may modulate glioma cytoskeleton structure, cytoplasmic calcium concentration changes, cellular growth, progression and invasion, as well as presents perspective concerning potential targets for glioma therapy.
Genetic alterations in cancer, in addition to being the fundamental drivers of tumorigenesis, can give rise to a variety of metabolic adaptations that allow cancer cells to survive and proliferate in diverse tumor microenvironments. This metabolic flexibility is different from normal cellular metabolic processes and leads to heterogeneity in cancer metabolism within the same cancer type or even within the same tumor. In this book, we delve into the complexity and diversity of cancer metabolism, and highlight how understanding the heterogeneity of cancer metabolism is fundamental to the development of effective metabolism-based therapeutic strategies. Deciphering how cancer cells utilize various nutrient resources will enable clinicians and researchers to pair specific chemotherapeutic agents with patients who are most likely to respond with positive outcomes, allowing for more cost-effective and personalized cancer therapeutic strategies.
Gliomas, developing in the brain from the transformed glial cells, are a very special kind of tumor, extremely refractory to conventional treatments. Therefore, for the development of new antitumor strategies, a better understanding of molecular mechanisms responsible for their biology, growth and invasion is still needed. This book is a reference on cellular signaling processes regulating gliomas physiology and invasiveness. The work is focused on the mechanism of nucleotide receptor activation by exogenous nucleotides and formation of complex signaling cascades induced by growth factors, cytokines and cannabinoids. The second edition of the book enriched in new chapters provides a framework explaining how signal transduction elements may modulate numerous genetic and epigenetic alterations, describes the role of local microenvironment in cellular growth, progression and invasion and, in the light of extensive new results, presents perspectives concerning potential targets for gliomas therapy.
“The editors...have done an outstanding job of presenting...complex information in a lucid manner – this book is a must-read for the global community of aspiring students and neuro-oncology practitioners.” Amar Gajjar, MD in the Foreword This is a succinct introduction to pediatric neuro-oncology. It summarizes the key advances in molecular biology that have helped transform this rapidly evolving field and provides up-to-date coverage of major and emerging treatment modalities as well as supportive care. Separate chapters present each kind of pediatric brain cancer and its diagnosis and treatment. As more children survive brain cancer, the importance of quality of life issues and helping survivors to cope with the neuropsychological impact and long-term effects of current therapies has come into sharper focus; these topics are also addressed in the book, as are palliative care and pediatric neuro-oncology in countries with limited resources. The book is aimed at trainees and practitioners who seek an up-to-date text in pediatric neuro-oncology that is both comprehensive and concise.
This volume presents the entire breadth of translational cancer research and brings together members of academia and industry in the expectation of accelerating interactions and progress in the field. A variety of key topics are presented, beginning with discovery of molecular targets and pathways (oncogene, cell survival, tumor suppression, cell death), host-neoplasm interactions (cell adhesion, matrix proteases), early detection, monitoring progression, understanding tumor progression and metastasis, immune surveillance, in vivo molecular imaging, animal models, drug discovery including chemistry, high-throughput assays, mechanism determination, target validation, therapeutic window and some progress in clinical trials for more advanced agents and targets.
This open access book offers an essential overview of brain, head and neck, and spine imaging. Over the last few years, there have been considerable advances in this area, driven by both clinical and technological developments. Written by leading international experts and teachers, the chapters are disease-oriented and cover all relevant imaging modalities, with a focus on magnetic resonance imaging and computed tomography. The book also includes a synopsis of pediatric imaging. IDKD books are rewritten (not merely updated) every four years, which means they offer a comprehensive review of the state-of-the-art in imaging. The book is clearly structured and features learning objectives, abstracts, subheadings, tables and take-home points, supported by design elements to help readers navigate the text. It will particularly appeal to general radiologists, radiology residents, and interventional radiologists who want to update their diagnostic expertise, as well as clinicians from other specialties who are interested in imaging for their patient care.
Marten Hofker and Jan van Deursen have assembled a multidisciplinary collection of readily reproducible methods for working with mice, and particularlyfor generating mouse models that will enable us to better understand gene function. Described in step-by-step detail by highly experienced investigators, these proven techniques include new methods for conditional, induced knockout, and transgenic mice, as well as for working with mice in such important research areas as immunology, cancer, and atherosclerosis. Such alternative strategies as random mutagenesis and viral gene transduction for studying gene function in the mouse are also presented.
Treatment of patients with intracranial gliomas, especially high-grade neoplasms, usually requires postoperative adjuvant therapy. Significant progress in the understanding of tumor biology, technological advances in irradiation delivery, and development of novel antitumor drugs have led to an expansion of the therapeutic arsenal in neuro-oncology. This publication provides a unique review of the various options for adjuvant therapy. Special emphasis is on current evidence-based treatment standards and guidelines, and on perspectives of further improvement in long-term outcomes. Chapters review the histopathological and molecular features of gliomas and describe basic principles and clinical results of fractionated radiotherapy, stereotactic radiosurgery, brachytherapy, use of radiosensitizers, systemic chemotherapy and antiangiogenic therapy. Particular attention is paid to treatment of pediatric patients and to physical and psychological rehabilitation and supportive care at the end of life. This book and its accompanying volumes are mainly directed at neuro-oncologists, radiation oncologists, and other clinicians treating patients with brain tumors.
This book gathers a collection of cases with challenging diagnoses, in which nuclear medicine examinations have been particularly helpful in terms of the final diagnosis or follow-up. The cases presented chiefly involve patients with neurodegenerative disorders, epilepsy and brain tumors. The book is intended for nuclear medicine specialists as well as clinicians, offering essential guidance on the interpretation of neurology cases in the clinical setting, particularly with regard to correctly interpreting diagnostic imaging procedures. The authors were selected from the members of the Neuroimaging Committee of the EANM and have extensive experience as clinicians and teachers within the Nuclear Medicine Community.
Radiation Medicine Rounds is a trinary, hard cover periodical designed to provide an up-to-date review of a dedicated radiation medicine topic of interest to clinicians and scientists who are involved in the care of patients receiving radiotherapy. It is intended to serve as both a reference and instructional tool for students, housestaff, fellows, practicing clinicians, medical physicists, cancer biologists, radiobiologists, and interdisciplinary colleagues throughout the oncology spectrum. This issue of Radiation Medicine Rounds discusses the more salient topics surrounding the role of radiation therapy for malignant gliomas. The specialty of radiation therapy has increased in complexity over the years, yet as technology improves, the goal of improving outcomes while decreasing toxicity remains critical. Malignant gliomas remain among the most devastating of all malignancies, yet as conventional treatments (surgery, radiation, and chemotherapy) have become optimized overall survival has improved. The underlying molecular and genetic mechanisms of these tumors are becoming better understood, with one of the most important realizations being that histopathologically identical malignant gliomas often demonstrate very distinct clinical behaviors. Malignant Gliomas provides the practitioner with a current overview of best practices, recent research, and future directions in the management of this complex and challenging cancer.
