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The next generation of oncological hyperthermia involves the medical innovation of selectively heating up the malignant cells of the body in a controlled way. The easily-distinguishable biophysical and physiological characteristics of cancer cells and their immediate environment are the focus of the targeted energy delivery of this treatment. This heterogenic heating concept breaks with the homogeneous nature of conventional hyperthermia, where an isothermally equal temperature is applied to the large surface area of a solid tumor. Due to its selectivity, the new concept enables the usage of a significantly lower energy, making it safer, less toxic, and easier to use. This book shows the challenges facing oncological hyperthermia, and highlights clinical results obtained in various countries. It also presents discussions about the theoretical basis of the method, adding some technical discussions and clarifying the most difficult points of its design. The contributions dealing with clinical results use state-of-art conventional therapies with complementary hyperthermia and show the advantages of such a combination.
Oncothermia is the next generation medical innovation that delivers selective, controlled and deep energy for cancer treatment. The basic principles for oncothermia stem from oncological hyperthermia, the oldest approach to treating cancer. Nevertheless, hyperthermia has been wrought with significant controversy, mostly stemming from shortcomings of controlled energy delivery. Oncothermia has been able to overcome these insufficiencies and prove to be a controlled, safe and efficacious treatment option. This book is the first attempt to elucidate the theory and practice of oncothermia, based on rigorous mathematical and biophysical analysis, not centered on the temperature increase. It is supported by numerous in-vitro and in-vivo findings and twenty years of clinical experience. This book will help scientists, researchers and medical practitioners in understanding the scientific and conceptual underpinnings of oncothermia and will add another valuable tool in the fight against cancer. Professor Andras Szasz is the inventor of oncothermia and the Head of St Istvan University's Biotechnics Department in Hungary. He has published over 300 papers and lectured at various universities around the world. Dr. Oliver Szasz is the managing director of Oncotherm, the global manufacturer and distributor of medical devices for cancer treatment used in Europe & Asia since the late 1980s. Dr. Nora Szasz is currently a management consultant in healthcare for McKinsey & Co.
This comprehensive work broadens readers' understanding of the rudimentary mechanism of the anti-cancer effect of hyperthermia. It also presents state-of-the-art clinical outcomes by hyperthermia treatment of cancer. In the past few decades, basic and clinical research have shown through in vitro experiments that hyperthermia inhibits epithelial-mesenchymal transition (EMT), resulting in the prevention of metastasis. It also has been learned that hyperthermia shows its superior benefit when applied in combination with radiation therapy, chemotherapy, or various immunotherapies as treatments of several types of carcinoma. The chapters here from expert contributors describe the details of their research for each type of cancer. This book provides not only an overview and the current status of hyperthermia but also its future perspectives. Therefore this volume will greatly benefit oncologists, radiologists and radiology technologists, and chemotherapists who are involved in immunotherapy for all kinds of cancer.
Volume I.C An outbreak of a respiratory disease first reported in Wuhan, China in December 2019 and the causative agent was discovered in January 2020 to be a novel betacoronovirus of the same subgenus as SARS-CoV and named severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Coronavirus disease 2019 (COVID-19) has rapidly disseminated worldwide, with clinical manifestations ranging from mild respiratory symptoms to severe pneumonia and a fatality rate estimated around 2%. Person to person transmission is occurring both in the community and healthcare settings. The World Health Organization (WHO) has recently declared the COVID-19 epidemic a public health emergency of international concern. The ongoing outbreak presents many clinical and public health management challenges due to limited understanding of viral pathogenesis, risk factors for infection, natural history of disease including clinical presentation and outcomes, prognostic factors for severe illness, period of infectivity, modes and extent of virus inter-human transmission, as well as effective preventive measures and public health response and containment interventions. There are no antiviral treatment nor vaccine available but fast track research and development efforts including clinical therapeutic trials are ongoing across the world. Managing this serious epidemic requires the appropriate deployment of limited human resources across all cadres of health care and public health staff, including clinical, laboratory, managerial and epidemiological data analysis and risk assessment experts. It presents challenges around public communication and messaging around risk, with the potential for misinformation and disinformation. Therefore, integrated operational research and intervention, learning from experiences across different fields and settings should contribute towards better understanding and managing COVID-19. This Research Topic aims to highlight interdisciplinary research approaches deployed during the COVID-19 epidemic, addressing knowledge gaps and generating evidence for its improved management and control. It will incorporate critical, theoretically informed and empirically grounded original research contributions using diverse approaches, experimental, observational and intervention studies, conceptual framing, expert opinions and reviews from across the world. The Research Topic proposes a multi-dimensional approach to improving the management of COVID-19 with scientific contributions from all areas of virology, immunology, clinical microbiology, epidemiology, therapeutics, communications as well as infection prevention and public health risk assessment and management studies.
Cell-based Cancer Immunotherapy, Volume 183 provides the latest progress concerning research on anticancer cellular immunotherapies and their immunological, translation, or clinical aspects. Topics covered in this volume include Methods behind clinical DC vaccine products against glioblastoma, Fully closed and automated isolation of natural blood dendritic cells for cancer immunotherapy, Methods behind Oncolytic virus-based DC vaccines in cancer: towards a multiphase combined treatment strategy for Glioblastoma (GBM) patients, Identification of TCR repertoire patterns linked with anti-cancer immunotherapy, Training of epitope-TCR prediction models with healthy donor-derived cancer-specific T cells, Methods behind neoantigen predictions for anticancer vaccines, Methods behind CD137L-DC-EBV-VAX anticancer vaccine, and much more. Additional sections cover Gold Standard Assessment of Immunogenic Cell Death Induced by Photodynamic Therapy: From In Vitro to Tumor Mouse Models and Anti-Cancer Vaccination Strategies, Methods behind TCR analyses for colorectal cancer-associated TILs, The use of xCELLigence, Incucyte, and/or Cr/LDH/maker-release assays, Humanized mouse models for anti-cancer therapy, In vitro re-challenge of CAR T cells, Methods behind adoptively transferred tumor draining lymphocytes? for anticancer immunotherapy, and A murine glioblastoma platform to test cellular therapies with the standard of care. - Provides comprehensive method articles from front-line experts on the topic of anticancer cellular immunotherapies - Provides useful schematic material and cutting-edge discussions - Presents the latest insights and future perspectives on the covered topics, along with their implications for immuno-oncology, as well as clinical perspectives
Nanomaterials for Magnetic and Optical Hyperthermia Applications focuses on the design, fabrication and characterization of nanomaterials (magnetic, gold and hybrid magnetic-gold nanoparticles) for in vitro and in vivo hyperthermia applications, both as standalone and adjuvant therapy in combination with chemotherapy. The book explores the potential for more effective cancer therapy solutions through the synergistic use of nanostructured materials as magnetic and optical hyperthermia agents and targeted drug delivery vehicles, while also discussing the challenges related to their toxicity, regulatory and translational aspects. In particular, the book focuses on the design, synthesis, biofunctionalization and characterization of nanomaterials employed for magnetic and optical hyperthermia. This book will be an important reference resource for scientists working in the areas of biomaterials and biomedicine seeking to learn about the potential of nanomaterials to provide hyperthermia solutions. - Explores the design of efficient nanomaterials for hyperthermia applications, allowing readers to make informed materials selection decisions - Discusses the biofunctionalization of a range of nanomaterials and their interaction with living systems - Provides an overview of the current clinical applications of nanomaterials in hyperthermia treatment
This volume presents papers on the topics covered at the National Academy of Engineering's 2018 US Frontiers of Engineering Symposium. Every year the symposium brings together 100 outstanding young leaders in engineering to share their cutting-edge research and innovations in selected areas. The 2018 symposium was held September 5-7 and hosted by MIT Lincoln Laboratory in Lexington, Massachusetts. The intent of this book is to convey the excitement of this unique meeting and to highlight innovative developments in engineering research and technical work.
This book is the third volume on this subject and focuses on the recent advances of nanopharmaceuticals in cancer, dental, dermal and drug delivery applications and presents their safety, toxicity and therapeutic efficacy. The book also includes the transport phenomenon of nanomaterials and important pathways for drug delivery applications. It goes on to explain the toxicity of nanoparticles to different physiological systems and methods used to assess this for different organ systems using examples of in vivo systems.