Abstract: A processor (10) controls the operation of the device and preferably provides for a plurality of operational algorithms or modes. A program switch (18) allows the user to select which algorithm will be used. The processor drives an inverter (12), which drives a power amplifier or bridge (13). The output of the bridge 13 is connected to one or more transducers 16. When the user presses the switch (19A), the processor begins the algorithm. One or more of the transducers are placed on the patient's body in the area to be treated. The algorithms provide for lower-frequency and higher-frequency sweeps, which the transducers convert to microvibrations which, in turn, massage not only the muscles and the larger blood vessels, but also the smaller blood vessels and capillaries, and provide for improved blood circulation in the affected area, thereby relieving pain and enhancing recovery.

Abstract: A method and device for using topically applied acoustical vibrations to treat diseases and conditions in living organisms. This approach is non-invasive, and more specifically does not involve introducing chemicals or physically invading the organisms. One or more acoustical transducers are placed directly on the skin of the organism in certain locations, and specific vibration profiles designed to treat specific diseases and conditions are applied to the organism through the transducers. The treatment includes the regular application of various vibration pulse profiles that generally include sequences of pulses in which each pulse has a duration in the range of 0.5 to 10 seconds, is separated by rest periods in the range of 0.1 to 3 seconds, is modulated with an oscillatory signal in the frequency range of 1 Hz to 1,500 Hz, and has a pulse amplitude in the range of range from about 20 to 5000 microns.

Abstract: A method and device for using topically applied acoustical vibrations to stimulate the production of adult stem cells in living organisms. This approach is non-invasive, and more specifically does not involve introducing chemicals or physically invading the organisms. One or more acoustical transducers are placed directly on the skin of the organism in certain locations, and selected vibration profiles are applied to the organism through the transducers. The treatment includes the regular application of various vibration pulse profiles that generally include sequences of pulses in which each pulse has a duration in the range of one-half to ten seconds, is separated by rest periods in the range of one-tenth to three seconds, is modulated with an oscillatory signal in the frequency range of 1 Hz to 1,500 Hz, and has a pulse amplitude in the range of range from about 20 to 5000 microns.

Abstract: A processor (10) controls the operation of the device and preferably provides for a plurality of operational algorithms or modes. A program switch (18) allows the user to select which algorithm will be used. The processor drives an inverter (12), which drives a power amplifier or bridge (13). The output of the bridge 13 is connected to one or more transducers 16. When the user presses the switch (19A), the processor begins the algorithm. One or more of the transducers are placed on the patient's body in the area to be treated. The algorithms provide for lower-frequency and higher-frequency sweeps, which the transducers convert to microvibrations which, in turn, massage not only the muscles and the larger blood vessels, but also the smaller blood vessels and capillaries, and provide for improved blood circulation in the affected area, thereby relieving pain and enhancing recovery.