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This text applies engineering science and technology to biological cells and tissues that are electrically conducting and excitable. It describes the theory and a wide range of applications in both electric and magnetic fields.
Bioelectromagnetism has been gradually developing and expanding into a variety of fields in engineering, biomedical engineering, life science, medicine and biology. Bioelectromagnetism: History, Foundations and Applications provides an overview of the field and its developments; from its inception and growth through the twenty-first century, to the latest advances in electro- and magnetobiology and hazard evaluations of electromagnetic fields. It is organized into three sections, each focusing on specific regions of bioelectromagnetism. It begins with the foundations of the field and its history, with a chronological treatment of the major subjects in bioelectromagnetism. The relationship between atmospheric electromagnetic phenomena, geomagnetism and biological systems are presented. It then discusses the many benefits of bioelectromagnetism: electroreception, magnetic navigation, magnetic sense and magnetic responses of plants, birds, animals and humans. It then moves on to human health issues and the impact of bioelectromagnetism. It also provides practical guidance on how to set safety guidelines. Finally, it looks forward to the future prospects of the field based on the latest research in the field. In exploring both the history of the field and the latest developments in today’s research advances, this book provides a comprehensive and self-contained treatment on the subject, which will be a valuable reference for researchers in biophysics, medicine, electrical engineering and biomedical engineering. It can be used as a companion to the editor’s previously published books: Biomagnetics: Principles and Applications of Biomagnetic Stimulation and Imaging (9781482239201, 2016, CRC Press); and Bioimaging: Imaging by Light and Electromagnetics in Medicine and Biology (9780367203047, 2020, CRC Press). Key Features: Provides both a historical view of the field, along with the latest developments in the field Contains practical guidance for researchers on how to set safety guidelines for those working in the area Edited by authorities in the field, with chapter contributions from specialists
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
"Bioelectromagnetism has been gradually developing and expanding into a variety of fields in engineering, biomedical engineering, life science, medicine, and biology. This book provides an overview of the field and its developments; from its inception and growth through the 21st century to the latest advances in electro-and magneto-biology and hazard evaluations of electromagnetic fields. It is organized into three sections, each focusing on specific regions of bioelectromagnetism. It begins with the foundations of the field and its history, with a chronological treatment of the major subjects in bioelectromagnetism. The relationship between atmospheric electromagnetic phenomena, geomagnetism, and biological systems are presented. It then discusses the many benefits of bioelectromagnetism; electroreception, magnetic navigation, magnetic sense and magnetic responses of plants, birds, animals, and humans. It then moves on to human health issues and the impact of bioelectromagnetism. It also provides practical guidance on how to set safety guidelines. Finally, it looks forward to the future prospects of the field based on the latest research in the field. In exploring both the history of the field and the latest developments in today's research advances, this book provides a comprehensive and self-contained treatment on the subject, which will be a valuable reference for researchers in biophysics, medicine, electrical engineering, and biomedical engineering. Key features: Provides both a historical view of the field, along with the latest developments in the field Contains practical guidance for researchers on how to set safety guidelines for those working in the area Edited by authorities in the field, with chapter contributions from specialists"--
This book is an educational resource of evolving scientific knowledge in the area of bioelectromagnetics that may serve the interests of students and decision-makers, as well as society as a whole. It is distinguished by extensive descriptions of fundamental biophysical concepts and their relevance to human health. Reflecting the transdisciplinary approach from several different intellectual streams including physics, biology, epidemiology, medicine, environment, risk science, and engineering, the book is quite a venture into the battling studies to assess the latest research on health effects and biomedical applications of EM energy. This new edition of the book particularly looks at the potential threats from the emerging 5G wireless networks, which will deploy large numbers of low-powered smartphones, notebooks, tablets, radio access networks, and other transmitters. Features Introduces necessary biophysical principles of EM fields in the context of their interaction with living systems. Strengthens understanding of cutting-edge research on several major areas in the broad area of bioelectromagnetics. Presents safety standards and guidelines for human exposure to EM fields. Discusses techniques that have been developed to ensure adequate EM-thermal dosimetry required for both health effects and biomedical applications. Provides insight into the determinants of EM health risk assessment and public concerns. Includes extensive reference list at the end of each chapter to enhance further study. Riadh Habash is a special appointment professor and McLaughlin Research Chair in Electromagnetic Fields and Health at the University of Ottawa, Canada. He has been the recipient of many awards, including the National Wighton Fellowship Award, and has authored or co-authored over 90 research articles, six books, and five book chapters. His most recent books are Green Engineering in 2017 and Professional Practice in 2019 (CRC Press), with the remaining previous books targeting the area of bioelectromagnetics.
Although classical electromagnetic (EM) field theory is typically embedded in vector calculus and differential equations, many of the basic concepts and characteristics can be understood with precursory mathematical knowledge. Completely revised and updated, Basic Introduction to Bioelectromagnetics, Second Edition facilitates the process of interd
Dosimetry refers to the calculation and assessment of the radiation dose received by the human body. The proposed book will place emphasis on the existence of physical and biophysical dosimetry. It will be discussed for the proper description and evaluation of the signal at the power generation system. It will cover in detail 10 different parameters of EMF (electromagnetism) exposure such as amplitude, frequency, vector, time of exposure, orientation, etc. In most published papers, these parameters are not well defined.
Proceedings of the NATO Advanced Research Workshop on The Mechanisms of the Biological Effect on Extra High Power Pulses (EHPP), Yerevan, Armenia 3 - 5 March 2005
Annotation The study of the effects of electromagnetic fields on biological systems has been recently called bioelectromagnetics (BEMs). Though electromagnetic fields have sometimes been associated with potential for harm to the body, there are many BEM instruments and devices re-emerging in the 21st century, based on high voltage Tesla coils, that apparently bring beneficial health improvements to human organisms. The Tesla coil class of therapy devices constitute pulsed electromagnetic fields (PEMF) that deliver broadband, wide spectrum, nonthermal photons and electrons deep into biological tissue. Electromedicine or electromagnetic medicine are the terms applied to such developments in the ELF, RF, IR, visible or UV band. With short term, non-contacting exposures of several minutes at a time, such high voltage Tesla PEMF devices may represent the ideal, noninvasive therapy of the future, accompanied by a surprising lack of harmful side effects. A biophysical rationale for the benefits of BEM healing a wide variety of illnesses including cancer, proposes a correlation between a bioelectromagnetically restored transmembrane potential, and the electron transport across cell membranes by electroporation, with normal cell metabolism and immune system enhancement. The century-long historical record of these devices is also traced, revealing highly questionable behavior from the medical and public health institutions toward such remarkable innovations. This book also reviews the highlights of several BEM inventions but does not present an exhaustive nor comprehensive review of bioelectromagnetic healing devices. It should not be construed as an attempt to prescribe or recommend treatment of any kind. This report is simply designed to provide referenced information on an energy science that is almost impossible to learn about otherwise. Patients should seek medical advice from a qualified medical practitioner at all times.
Basic Introduction to Bioelectromagnetics, Third Edition, is a primary source for medical technologists and life scientists seeking to understand how electromagnetic fields interact with the body, and how they are used in medical applications. Instead of the complex math commonly used when analyzing electromagnetics, this book uses graphical methods and simple equations. The third edition is updated with color graphics that show the fields in bright, clear colors. Each concept is presented with an associated discussion and application, including MRI, NMR, hyperthermia, neural stimulation, ultrasound, and cardiac pacing/defibrillation. Offering a simplified explanation of a very complex subject, this third edition provides an accessible introduction for life scientists and medical technologist on how EM fields work, what controls them, and the factors important to experimental setups and medical applications. This qualitative and illustrative book: Covers the entire frequency spectrum from direct current (DC) up through optical frequencies. Includes more than 200 illustrations, 65 in color, and 40 medical applications. Incorporates examples from real-world applications to explain concepts. Concentrates on the qualitative explanation of the key concepts, fundamental principles, and characteristic behaviors of EM fields, without complicated mathematics. Offers practical rules of thumb to understand real situations. Requires only a background in algebra, in contrast to typical EM books that require vector calculus and differential equations.