Abstract: The present disclosure provides a method and a device for an activation of brain regions. The method comprises attaching a first active electrode to a first leg of a person in the back of the knee area in an expected location of a peroneal nerve of the first leg and attaching a grounding electrode to the person. Generating electrical pulses by a pulse generator connected to the first active electrode and the grounding electrode. Stimulating by the first active electrodes the peroneal nerve of the first leg, activating the brain regions via the stimulation and controlling via a control unit a flow of the generated pulses to the first electrode.

Abstract: The present disclosure provides a method for a neuromodulation treatment of a low urinary tract dysfunction. The neuromodulation method comprises attaching at least one active electrode to at least one leg of the patient in the back of the knee area in an expected location of a peroneal nerve of the at least one leg. Attaching a grounding electrode to the patient's body. Generating electrical pulses by a pulse generator connected to the at least one active electrode and the grounding electrode. Controlling via a control unit a flow of the generated electrical pulses to the at least one active electrode and stimulating by the at least one active electrode the peroneal nerve of the at least one leg of the patient.

Abstract: The present disclosure provides a neuromodulation method for treating neurodegenerative disease. The neuromodulation method comprises attaching a first active electrode to a patient's leg in the back of the knee area in an expected location of a peroneal nerve of the first leg and attaching a grounding electrode to the patient's body. Generating electrical pulses by a pulse generator connected to the first active electrode and the grounding electrode. Stimulating by the first active electrodes the peroneal nerve of the first leg and controlling via a control unit a flow of the generated pulses to the first electrode.

Abstract: The present disclosure provides a neuromodulation method for treating the syndromes of a low urinary tract dysfunction. The neuromodulation method comprises attaching a first active electrode to a first patient's leg in the back of the knee area in proximity of a peroneal nerve of the first leg. Attaching a second active electrode to a second patient's leg in the back of the knee area in proximity of a peroneal nerve of the second leg. Attaching a grounding electrode to the patient's body. Generating electrical pulses by a pulse generator connected to the first, the second active electrode and a grounding electrode. Stimulating by the first and the second active electrodes the peroneal nerve of the first and the second leg and controlling via control unit a flow of the generated pulses to each of the first and second active electrode.

Abstract: The invention provides a device for stimulating peripheral nerves, comprising a memory, at least one electrode attached to the patient's body for generating pulses, and a control unit connected with an electrode for setting at least one electrode pulse parameter. The device further includes a detector of response to neuromodulation connected with a control unit for transmitting information on a frequency of movement of at least a part of the body to the control unit, and a controller connected with the control unit for acquiring a user input. The control unit of the device further sets flow of current of electrode pulses automatically, depending on information on a frequency value of movement of a part of the body. The invention further provides a method for treating the syndromes of an overactive bladder using a neuromodulation device. And method of collecting information of such devices.

Abstract: The present disclosure provides a neuromodulation method for treating neurodegenerative disease. The neuromodulation method comprises attaching a first active electrode to a patient's leg in the back of the knee area in an expected location of a peroneal nerve of the first leg and attaching a grounding electrode to the patient's body. Generating electrical pulses by a pulse generator connected to the first active electrode and the grounding electrode. Stimulating by the first active electrodes the peroneal nerve of the first leg and controlling via a control unit a flow of the generated pulses to the first electrode.

Abstract: An effective neuromodulation electrode assembly configured to provide a precise neuromodulation of a desired nerves whilst forming an efficient electro conductive interface between a patient skin and the neuromodulation electrode. The neuromodulation electrode comprising an enclosure having on one side a protrusion extending up to an end having an opening, an electrical interface, an electro conductive electrode piece coupled to the electrical interface on one end and having the opposite end configured to interact with a patient skin. The electrode piece further comprising, an electrically conductive solid element coupled on one side to the electrical interface and an electrically conductive soft deformable element that projects outwards through the opening and which adapted to form an interface between the solid element and the patient skin.

Abstract: The present disclosure provides a neuromodulation medical treatment device and a medical treatment neuromodulation method for stimulating peripheral nerves. The device comprises a pulse generator and at least one active electrode connected to the pulse generator. The at least one active electrode has an electrically conductive surface of less than or equal to 0.3100 square inch and the electrically conductive surface is attachable to a patient's skin in a proximity of branches of peripheral nerves. The at least one active electrode is adapted to stimulate via the electrically conductive surface the peripheral nerves by electrical pulses generated by the pulse generator. The control unit controls the pulse generator and sets at least one parameter of generated electrical pulses.

Abstract: A neuromodulation apparatus and method of using the same. The neuromodulation apparatus has a plurality of active electrodes electrically isolated from each other and arranged in at least one electrodes array, at least one reference electrode, a pulse generator electrically connected to each active electrode of the plurality of active electrodes and configured to selectively transmit electric pulses to each of the plurality of active electrodes and a control unit coupled to the electrical pulse generator and adapted to measure a resistance and/or a current-voltage characteristic between each active electrode of the plurality of active electrodes and the at least one reference electrode.

Abstract: The present disclosure provides a neuromodulation method for treating the syndromes of a low urinary tract dysfunction. The neuromodulation method comprises attaching a first active electrode to a first patient's leg in the back of the knee area in proximity of a peroneal nerve of the first leg. Attaching a second active electrode to a second patient's leg in the back of the knee area in proximity of a peroneal nerve of the second leg. Attaching a grounding electrode to the patient's body. Generating electrical pulses by a pulse generator connected to the first, the second active electrode and a grounding electrode. Stimulating by the first and the second active electrodes the peroneal nerve of the first and the second leg and controlling via control unit a flow of the generated pulses to each of the first and second active electrode.

Abstract: The subject of the invention is a device for electrical stimulation of tissue consisting of an electrode and a magnet, which allows to reach deeper located regions without the need for invasive surgery. This helps to achieve therapeutically success in broader range of patients.

Abstract: An effective neuromodulation electrode assembly configured to provide a precise neuromodulation of a desired nerves whilst forming an efficient electro conductive interface between a patient skin and the neuromodulation electrode. The neuromodulation electrode comprising an enclosure having on one side a protrusion extending up to an end having an opening, an electrical interface, an electro conductive electrode piece coupled to the electrical interface on one end and having the opposite end configured to interact with a patient skin, The electrode piece further comprising, an electrically conductive solid element coupled on one side to the electrical interface and an electrically conductive soft deformable element that projects outwards through the opening and which adapted to form an interface between the solid element and the patient skin.

Abstract: The invention provides a device for stimulating peripheral nerves, comprising a memory, at least one electrode attached to the patient's body for generating pulses, and a control unit connected with an electrode for setting at least one electrode pulse parameter. The device further includes a detector of response to neuromodulation connected with a control unit for transmitting information on a frequency of movement of at least a part of the body to the control unit, and a controller connected with the control unit for acquiring a user input. The control unit of the device further sets flow of current of electrode pulses automatically, depending on information on a frequency value of movement of a part of the body. The invention further provides a method for treating the syndromes of an overactive bladder using a neuromodulation device. And method of collecting information of such devices.