Manuscript Topics

Electromagnetic waves have many applications in biology. For example, imaging methods like magnetic resonance imaging (MRI) technique use these waves to provide detailed images of the organs and tissues within a human’s body.  In some of these imaging techniques, an electronic machine sends some waves which collide with a biological target within the body, scattered and absorbed by some detectors. By considering differences between sent waves and received ones, some images from target are produced. Some other imaging techniques like Electroencephalography (EEG), Magnetoencephalography (MEG), electrocardiogram (ECG) and Magnetocardiography (MCG) consider emitted waves from biological cells of brain and heart to diagnose their evolutions and diseases. For example, neurons within neural networks exchange electrical fields and charges. Also, many ions and charges move along blood vessels. Motions of charges cause to emission of electrical and magnetic fields around the brain and heart. Any change in biological structures cause to a significant change in motions of charges and ions or their numbers and consequently, emitted electromagnetic waves change. Thus, these waves provide the best opportunity to consider evolutions of cells. Besides these benefits and advantages, electromagnetic waves have some disadvantages so. For example, some observations show that high densities of some frequencies could produce some types of tumors. Also, some biological cells and microbes response to some wavelengths and may grow faster or slower. Thus, we need to consider these advantages and disadvantages carefully and find a way to employ electromagnetic waves. In this issue, we consider all papers which discuss about any type of relation between electromagnetic waves and biology from advantages like using of waves in imaging techniques to disadvantages like the role of waves in producing tumors.

Key Words: Mathematical modelling, Electromagnetic waves, Biological Imaging techniques, Brain waves, Neural Osscillation, Heart Magnetic waves, Magnetocardiography, Electroencephalogram, Tumors

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