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Emerging Electromagnetic Medicine presents the latest research findings in the field of electromagnetic radiation. The book discusses the research of current active researchers in terms of synthesizing and sharing their ideas on the use of electromagnetic fields in diagnostic and therapeutic medicine, now and in the future, including the benefits and risks involved. The book consists of three parts prefaced by a brief historic perspective. Section I describes the theoretical concerns and actual mechanisms involved; Section II covers current preclinical studies, performed in vivo and in vitro, concerning the biological action of the electromagnetic radiation; and Section III reports on actual clinical applications of electromagnetic therapy and also the current machinery used to do so.
Emerging Electromagnetic Medicine presents the latest research findings in the field of electromagnetic radiation. The book discusses the research of current active researchers in terms of synthesizing and sharing their ideas on the use of electromagnetic fields in diagnostic and therapeutic medicine, now and in the future, including the benefits and risks involved. The book consists of three parts prefaced by a brief historic perspective. Section I describes the theoretical concerns and actual mechanisms involved; Section II covers current preclinical studies, performed in vivo and in vitro, concerning the biological action of the electromagnetic radiation; and Section III reports on actual clinical applications of electromagnetic therapy and also the current machinery used to do so.
This timely book presents innovative technologies for use in the diagnosis, monitoring, and treatment of brain disease. These technologies offer exciting possibilities in the medical field owing to their low-cost, portability and safety. The authors address cerebrovascular diseases such as stroke, ischemia, haemorrhage, and vasospasm, these diseases having an ever-increasing societal relevance due to the global ageing population. The authors describe the potential of novel techniques such as microwave imaging and present innovative modalities for treatment of brain tumours using electromagnetic fields and nano-composites, as well as for monitoring brain temperature during surgery. Finally, Emerging Electromagnetic Technologies for Brain Diseases Diagnostics, Monitoring and Therapy addresses the perspectives which arise from multi-modal multi-spectral EM modalities, which make a synergic use of the different portions of the electromagnetic spectrum. This text will be of interest to readers from various different areas, given the fundamental interdisciplinarity of the subject matter. This includes researchers or practitioners in the field of electrical engineering, applied physicists, and applied mathematicians working on imaging applications for biomedical and electromagnetic technologies. Neurologists and radiologists may also find this book of interest, as may graduate students in these areas.
Electromagnetism refers to the force of electric and magnetic fields which is frequently used in various technologies. Electromagnetic technologies are also used in medical imaging and diagnostics. The advancements in electromagnetic engineering such as computational methods, imaging theory and algorithms, measurement techniques, etc. have led to the development of this technology. Such advancements have led to development of low-cost, portable, and accurate microwave sensing/imaging systems which can help in overcoming various challenges existing in medical diagnostics. Currently, the electromagnetism research is focused on the use of microwave technologies in medical imaging and diagnostics. Microwave medical imaging makes use of the prominent dielectric contrast between healthy and disease-affected tissues to detect a pathological condition. The objective of microwave sensing technology is to monitor physiological parameters such as heart-rate, or disease-related biomarkers in the blood. A new medical application named microwave tomography is emerging as an effective means to monitor thermal ablation. In this book, various advancements in electromagnetic technology having applications in medical diagnostics have been looked at in detail. Medical researchers, scientists and students actively engaged in this field will find it full of crucial and unexplored concepts.
Electromagnetic (EM) radio-wave technologies for medical imaging represent an emerging alternative diagnostic modality with some unique features, which is attracting the attention of many researchers worldwide. Diagnostic devices based on EM technology have no side-effects, as they exploit non-ionizing radiation, and their intrinsic low cost makes them sustainable for healthcare systems. This Special Issue provides a comprehensive account of this very active research area by gathering contributions that cover a variety of topics ranging from fundamental research questions to experimental validation and clinical translation.
Bioelectromagnetic and Subtle Energy Medicine focuses on a wide variety of evidence-based bioelectromagnetic and subtle energy therapies for disorders ranging from cancer, cardiomyopathy, and Parkinson's disease to depression, anxiety, and pain. Since publication of the first edition more than a decade ago, there have been so many advances in these
The two volumes of this new edition of the Handbook cover the basic biological, medical, physical, and electrical engineering principles. They also include experimental results concerning how electric and magnetic fields affect biological systems—both as potential hazards to health and potential tools for medical treatment and scientific research. They also include material on the relationship between the science and the regulatory processes concerning human exposure to the fields. Like its predecessors, this edition is intended to be useful as a reference book but also for introducing the reader to bioelectromagnetics or some of its aspects. FEATURES • New topics include coverage of electromagnetic effects in the terahertz region, effects on plants, and explicitly applying feedback concepts to the analysis of biological electromagnetic effects • Expanded coverage of electromagnetic brain stimulation, characterization and modeling of epithelial wounds, and recent lab experiments on at all frequencies • Section on background for setting standards and precautionary principle • Discussion of recent epidemiological, laboratory, and theoretical results; including: WHO IARC syntheses of epidemiological results on both high and low frequency fields, IITRI lab study of cancer in mice exposed to cell phone-like radiation, and other RF studies • All chapters updated by internationally acknowledged experts in the field
From cell phones to treating cancer, EM energy plays a part in many of the innovations that we take for granted everyday. A basic force of nature, like nuclear energy or gravity, this energy can be harnessed and used, but still holds the potential to be harmful. The question remains, how safe are EM products? Bioeffects and Therapeutic Applicati