Electromagnetic fields : biological interactions and mechanisms
Author(s)
Bibliographic Information
Electromagnetic fields : biological interactions and mechanisms
(Advances in chemistry series, 250)
American Chemical Society, 1995
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Note
Includes bibliographical references and index
Description and Table of Contents
Description
Presents a timely, multifaceted examination of electromagnetic fields, including the physical characteristics of environmental electromagnetic fields, intrinsic biological fields, health-related risks, therapeutic applications, and transduction mechanisms. Examines the signal-to-noise problem of biological effects due to low-intensity electromagnetic fields. Describes the biochemical and biophysical mechanisms of interaction of electromagnetic fields with cells.
Proposes a mechanistic chain of causality which links the physical transduction to cellular processes.
Table of Contents
- Biological Effects of Environmental Electromagnetic Fields: An Overview
- Spectrum and Intensity of Environmental Electromagnetic Fields from Natural and Man-Made Sources
- Typical Electric and Magnetic Field Exposures at Power-Line Frequencies and Their Coupling to Biological Systems
- Bioelectromagnetic Dosimetry
- Issues Relating to Causality of Bioelectromagnetic Effects
- Comparison of Endogenous Currents in and Around Cells with Those Induced by Exogenous Extremely Low Frequency Magnetic Fields
- Endogenous Electric Fields Measured in Developing Embryos
- Streaming and Piezoelectric Potentials in Connective Tissues
- Electric Stimulation of Protein Synthesis in Muscle
- Epidemiologic Studies and Their Role in Identifying Potential Risks from Exposure to Electromagnetic Fields
- Magnetic Field Exposure Assessment
- Electromagnetic Fields and Cancer: Laboratory Studies
- Electric and Magnetic Field Mitigation Strategies
- Bioelectromagnetics in the Service of Medicine
- Therapeutic Aspects of Electromagnetic Fields for Soft-Tissue Healing
- Electromagnetic Heating for Cancer Treatment
- Tissue Electroporation for Localized Drug Delivery
- The Role of Coherence in Electromagnetic Field-Induced Bioeffects: The Signal-to-Noise Dilemma
- Electric and Magnetic Field Signal Transduction in the Membrane Na]+/K]+ -adenosinetriphosphatase
- The Role of Cell and Tissue Calcium in Transducing the Effects of Exposure to Low-Frequency Electromagnetic Fields
- Magnetoreception and Electromagnetic Field Effects: Sensory Perception of the Geomagnetic Field in Animals and Humans
- Magnetokinetic Effects on Radical Pairs: A Paradigm for Magnetic Field Interactions with Biological Systems at Lower Than Thermal Energy
- Biosynthetic Stress Response in Cells Exposed to Electromagnetic Fields
- Membrane Signal-Transduction Mechanisms and Biological Effects of Low-Energy Electromagnetic Fields
- Melatonin Suppression by Time-Varying and Time-Invariant Electromagnetic Fields
- Effects of Radio-Frequency Radiation on Mammalian Cells and Biomolecules In Vitro
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