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    Measurement and Simulation of Ionic Current as a Means of Quantifying Effects of Therapeutic Millimeter Wave Radiation

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    TETDEDXSlovinsky_temple_0225E_ ...
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    Genre
    Thesis/Dissertation
    Date
    2015
    Author
    Slovinsky, William Stanley
    Advisor
    Cohen, Richard
    Ziskin, Marvin C.
    Committee member
    Peridier, Vallorie J.
    Obeid, Iyad, 1975-
    Foster, William J.
    Department
    Mechanical Engineering
    Subject
    Engineering
    Engineering, Biomedical
    Physics
    Alternative Therapy
    Millimeter Wave
    Permanent link to this record
    http://hdl.handle.net/20.500.12613/3581
    
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    DOI
    http://dx.doi.org/10.34944/dspace/3563
    Abstract
    A “millimeter wave” (MMW) is an electromagnetic oscillation with a wavelength between 1 and 10 mm, and a corresponding frequency of 30 to 300 GHz. In the spectrum of electromagnetic radiation, this band falls above the frequencies of radio waves and microwaves, and below that of infrared radiation. Since the 1950s, frequencies in this regime have been used for short range communications and beginning in the 1970s, a form of therapy known as “millimeter wave therapy” (MWT) , or microwave resonance therapy, in some publications. This form of therapy has been widely used in the republics of the former Soviet Union (FSU). As of 1995, it is estimated that more than one thousand medical centers in the FSU have performed MWT and more than three million patients have received this method of treatment. Despite the abundant use of this form of medicine, very little is known about the mechanisms by which it works. Early accounts of use are limited to Soviet government documents, largely unavailable to the scientific public, and limited translations and oral accounts from FSU scientists and literature reviews . This anecdotal body of evidence lacks the scrutiny of peer-reviewed journal publications. In order to gain more widespread acceptance in Western medicine, the pathway through which this regime of the electromagnetic radiation spectrum affects the human body must be rigorously mapped and quantified. Despite the anecdotal nature of a large portion of the existing research on biological MMW effects, a common link is the idea of an interaction occurring at the skin level, which is transduced into a signal used at a remote location in the body. This study explores a possible mechanism for the generation of this signal. The effects of therapeutic frequency MMW on the ionic currents through two different types of ion transport channels were studied, and the results are discussed with emphasis on how they relate to possible changes in nerve signals used by the body for communication between tissues in remote locations.
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