Abstract: A method for diagnosing non-visible (occult) maladies in a human patient, the method comprising: (a) deploying at least two electrodes spaced apart on the skin of the patient; (b) detecting and recording a bioelectrical signal in and around said electrodes, the bioelectrical signal being a stochastic signal; (c) transforming the stochastic signal into a voltage versus frequency spectra using a Fast Fourier Transform (FFT) algorithm; (d) comparing a graph of a resultant FFT level of the patient to at least one graph of a baseline FFT level; and (e) determining a presents of a non-visible (occult) malady based on said comparison. Methods for monitoring a treatment regimen for non-visible (occult) maladies and for modulating the amplitude of endogenous bioelectrical stochastic signals in a human patient are also disclosed.

Abstract: A treatment method and device for promoting a localized increase in the flow of blood through a blood vessel in an area of the body, the method including the steps of: (a) providing a system including: (i) at least a first electrode operatively contacting a first portion of body tissue; (ii) at least a second electrode operatively contacting a second portion of body tissue; and (iii) a signal generator, operatively connected to the first electrode and the second electrode, for providing a plurality of electrical impulses to the electrodes; (b) applying the electrical impulses so as to subject the muscular tissue to at least one voltage differential, thereby inducing repeated, contracting, directional movement of muscular tissue associated within the blood vessel, so as to produce a localized increase in the flow of blood through the blood vessel.

Abstract: A treatment method and device for promoting a localized increase in the flow of blood through a blood vessel in an area of the body, the method including the steps of: (a) providing a system including: (i) at least a first electrode operatively contacting a first portion of body tissue; (ii) at least a second electrode operatively contacting a second portion of body tissue; and (iii) a signal generator, operatively connected to the first electrode and the second electrode, for providing a plurality of electrical impulses to the electrodes; (b) applying the electrical impulses so as to subject the muscular tissue to at least one voltage differential, thereby inducing repeated, contracting, directional movement of muscular tissue associated within the blood vessel, so as to produce a localized increase in the flow of blood through the blood vessel.

Abstract: A treatment method and device for promoting a localized increase in the flow of blood through a blood vessel in an area of the body, the method including the steps of: (a) providing a system including: (i) at least a first electrode operatively contacting a first portion of body tissue; (ii) at least a second electrode operatively contacting a second portion of body tissue; and (iii) a signal generator, operatively connected to the first electrode and the second electrode, for providing a plurality of electrical impulses to the electrodes; (b) applying the electrical impulses so as to subject the muscular tissue to at least one voltage differential, thereby inducing repeated, contracting, directional movement of muscular tissue associated within the blood vessel, so as to produce a localized increase in the flow of blood through the blood vessel.

Abstract: Described herein are electrical markers, specifically alternate current (AC) signals whose appearance in patients with wounds, specifically chronic wounds, correlates to the prognosis of the wounds. Related methods that can be used for diagnosis and treatment of wounds are disclosed. Also described herein are methods that can be used to identify electrical signals of wounds.

Abstract: A treatment method and device for promoting a localized increase in the flow of blood through a blood vessel in an area of the body, the method including the steps of: (a) providing a system including: (i) at least a first electrode operatively contacting a first portion of body tissue; (ii) at least a second electrode operatively contacting a second portion of body tissue; and (iii) a signal generator, operatively connected to the first electrode and the second electrode, for providing a plurality of electrical impulses to the electrodes; (b) applying the electrical impulses so as to subject the muscular tissue to at least one voltage differential, thereby inducing repeated, contracting, directional movement of muscular tissue associated within the blood vessel, so as to produce a localized increase in the flow of blood through the blood vessel.

Abstract: A treatment method and device for promoting a localized increase in the flow of blood through a blood vessel in an area of the body, the method including the steps of: (a) providing a system including: (i) at least a first electrode operatively contacting a first portion of body tissue; (ii) at least a second electrode operatively contacting a second portion of body tissue; and (iii) a signal generator, operatively connected to the first electrode and the second electrode, for providing a plurality of electrical impulses to the electrodes; (b) applying the electrical impulses so as to subject the muscular tissue to at least one voltage differential, thereby inducing repeated, contracting, directional movement of muscular tissue associated within the blood vessel, so as to produce a localized increase in the flow of blood through the blood vessel.

Abstract: A treatment method and device for promoting a localized increase in the flow of blood through a blood vessel in an area of the body, the method including the steps of: (a) providing a system including: (i) at least a first electrode operatively contacting a first portion of body tissue; (ii) at least a second electrode operatively contacting a second portion of body tissue; and (iii) a signal generator, operatively connected to the first electrode and the second electrode, for providing a plurality of electrical impulses to the electrodes; (b) applying the electrical impulses so as to subject the muscular tissue to at least one voltage differential, thereby inducing repeated, contracting, directional movement of muscular tissue associated within the blood vessel, so as to produce a localized increase in the flow of blood through the blood vessel.

Abstract: A treatment method and device for promoting a localized increase in the flow of blood through a blood vessel in an area of the body, the method including the steps of: (a) providing a system including: (i) at least a first electrode operatively contacting a first portion of body tissue; (ii) at least a second electrode operatively contacting a second portion of body tissue; and (iii) a signal generator, operatively connected to the first electrode and the second electrode, for providing a plurality of electrical impulses to the electrodes; (b) applying the electrical impulses so as to subject the muscular tissue to at least one voltage differential, thereby inducing repeated, contracting, directional movement of muscular tissue associated within the blood vessel, so as to produce a localized increase in the flow of blood through the blood vessel.

Abstract: A method for the treatment of a sore by applying a series of voltage wave forms, including the steps of: (a) situating a pair of spaced-apart electrodes in contact with healthy tissue on opposite sides of a sore having substantially zero electrical activity, and (b) externally inducing a percutaneous flow of electrical current between the electrodes by establishing the series of voltage wave forms across the electrodes, wherein the series of voltage wave forms includes wave forms designed to substantially mimic characteristic natural voltage wave form emissions of at least one electrically activity sore. The sore can subsequently be monitored for independent electrical activity, and if independent electrical activity is not sustained, step (b) is reapplied. The treatment method is particularly appropriate for bedsores.