Embodiments of medical treatment including skin treatment using electrical energy, especially with the primary purpose for skin treatment for aesthetics are described generally herein. Other embodiments may be described and claimed.

A method of treating hypertension in a patient includes generating, by an implantable stimulator configured to be implanted beneath a skin surface of the patient, stimulation sessions at a duty cycle that is less than 0.05 and applying, by the implantable stimulator in accordance with the duty cycle, the stimulation sessions to a tissue location associated with the hypertension. The duty cycle is a ratio of T3 to T4. Each stimulation session included in the stimulation sessions has a duration of T3 minutes and occurs at a rate of once every T4 minutes. The implantable stimulator is powered by a primary battery located within the implantable stimulator and having an internal impedance greater than 5 ohms.

Energy stimulated acupuncture, directed to a novel set of acupoints, is implemented to treat hypertension. The disclosed methods and systems are directed toward the application of electrical stimulation, or other forms of energy, to specific acupuncture points, using devices such as transcutaneous electrical stimulation electroacupuncture devices, laser acupuncture devices or ultrasound acupuncture devices, to treat hypertension, particularly in middle-aged women.

A system and a method of turnkey neurological solution to provide a variety of stimulations including photo-stimulation, binaural stimulation, and electro-acupuncture in wearable form, such as in glasses. Light may be generated from at least one light source powered by integrated photovoltaic cells and amplified light may be sent to a predetermined direction through the at least one angularly oriented optical window in which one face is covered by an optical film or coating. Also, the system and method may provide that, as an optical window is fabricated, photovoltaics may be fused directly to faces of the optical window for absorption of ambient light energy, and a light source may be fused into grooves on the edge of the optical window, with nanoelectrodes attached for electrical connections to controllers inserted in a housing. It may also be contemplated to provide binaural stimulation and electro-acupuncture effectors on the wearable device.

Semiconductor electroacupuncture needles are disclosed, as well methods of making and using the semiconductor electroacupuncture needles. A controller for controlling the characteristics of the voltage applied to the needles and/or the current flowing through the needles is described. In some embodiments, a portion of the electro acupuncture needle is insulated to control the position below the skin at which the current enters the patient. In some embodiments, an LED on the needle lights when current above a threshold value is passing through the needle and into the patient.

Devices and methods for generating and applying stimulated acupuncture needles to one or more acupuncture points on a body of an individual suffering from one or more ailments using magnetic fields. The acupuncture device is configured for generating magnetic fields to stimulate acupuncture without using human manual manipulation. The acupuncture device may comprise a control unit and one or more acupuncture needle stimulation units. Each one or more acupuncture needle stimulation unit is functionally connected to the control unit by a cable or lead. The control unit may include a variable frequency generator configured to deliver various power levels, direct voltages, or a combination of various power levels and direct voltages to the acupuncture needle stimulation units, alone or in combination with other stimuli. Special magnetic coil configurations may be used to boost coil efficiently and reduce the required energy to generate comparable magnetic fields.

A device and method are provided for therapy and treatment of biological tissue such as muscle, tendon, and ligament tissue, by use of a device and method in which therapeutic vibrational frequency resonance patterns are transmitted to tissues of a patient. The resonance frequencies originate from many resonance domains, including vitamins, minerals, herbs, amino acids, and fatty acids. Each domain includes therapeutic frequency resonance patterns. These resonance patterns may be passively excited and transmitted to a patient to enhance tissue function, to decrease the normal rehabilitation time of damaged tissue, and provide therapeutic benefits for muscle tissue dysfunction. Therapeutic frequency resonance patterns may also be actively excited by a delivery mechanism that uses electromagnetic or mechanical waves to interact with the device. The actively excited device transmits the therapeutic frequency resonance patterns to the patients for similar enhancements and therapeutic benefits.

A patient treatment unit for delivering non-invasive pulsed energy to living tissue with a probe stimulus generator circuit configured to output, as a treatment signal, a sequence of DC electrical pulses at a controlled pulse frequency of about 20 kHz and having a pulse voltage defined by a variable supply voltage of the probe stimulus generator circuit. The unit includes primary and secondary probes for contacting a body, an intensity adjustment circuit configured to control the variable supply voltage, and an electronic timer display configured to display an elapsed time in decimal numbers in minute and second format. An electrical current of the pulses is in a range of 0.1-2 mA while the probes are contacting the body. An operating output voltage across the probes while conducting the treatment signal does not exceed a maximum operating output voltage of 165 VDC while the probes are contacting the body.

An autonomous neurostimulation unit used in the modulation of the nervous system is provided and has: at least one pair of pads, each formed by at least one inner layer of ceramic; an intermediate layer; and a conductive alloy coating. The material of the layer of coating is different and has different conductivity in each of the pads of the pair. The unit can be used in the modulation of the nervous system, with neurostimulation methods that are adapted to each patient.