Abstract: A method for determining a muscle fatigue of a muscle includes a first step of electrostimulating the muscle at different frequencies. A second step of the method includes determining forces developed by the muscle in response to the electrostimulations of the first step. A third step includes determining a muscle fatigue on basis of the forces determined in the second step.

Abstract: A device for measuring a muscular strength of a lower limb of a patient includes a seat for receiving the patient in a seated position and is suitable for being placed on a substantially horizontal mounting The device further includes an element mechanically coupled to the seat and supporting the lower limb so as to receive at least a portion of the patient's lower limb. A measurement instrument measures a force exerted by the lower limb at the element for supporting the lower limb and is configured to remain substantially immobile with respect to the support upon the application of a force by the patient's lower limb at the element for supporting the lower limb, by virtue of the patient's weight exerted on the seat.

Abstract: The current invention concerns a system and a method for the acute non-invasive treatment of a migraine attack. The system comprises at least one skin electrode for placement on the forehead of a patient. The system is configured for providing consecutive biphasic electrical pulses via said at least one skin electrode to the supratrochlear and supraorbital nerves of the ophthalmic branch of the trigeminal nerve during a prolonged time span. Preferably, the time span is at least 10 minutes.

Abstract: The current invention concerns a system and a method for the acute non-invasive treatment of a migraine attack. The system comprises at least one skin electrode for placement on the forehead of a patient. The system is configured for providing consecutive biphasic electrical pulses via said at least one skin electrode to the supratrochlear and supraorbital nerves of the ophthalmic branch of the trigeminal nerve during a prolonged time span. Preferably, the time span is at least 10 minutes.

Abstract: An automated adaptive muscle stimulation system and method are disclosed. The stimulation system includes at least one electrode assembly adapted to deliver a muscle stimulation signal to the tissue of a user, a sensor system adapted to detect a muscle response, and an electrical stimulation device operably coupled to the at least on electrode assembly and the sensor system, the electrical stimulation device including a control system operable to automatically diagnose at least one characteristic of a muscle from the detected muscle response and adjust at least one parameter of the muscle stimulation signal in response thereto to deliver an adjusted muscle stimulation signal. A dual mode muscle stimulation system adapted to accept first and second data sets and provide first and second levels of treatment data is also disclosed.

Abstract: A muscle fatigue determination method including a step of electrostimulating a muscle at an electric charge at different frequencies. The electric charge is determined recursively in order to generate reliable and accurate forces of the muscle in response to the electrostimulation. The method further includes the steps of determining these forces and a muscle fatigue based on them.

Abstract: A method for determining a muscle fatigue of a muscle includes the step of electrostimulating the muscle at a given electric charge at different frequencies. The method further includes the steps of determining forces developed by the muscle in response to the electrostimulations and determining a muscle fatigue on basis of the forces The steps are repeated a number of times with increasing electric charge, wherein the electric charge is increased by a charge step between two occurrences of the electrostimuation step.

Abstract: A method for determining a muscle fatigue of a muscle includes a first step of electrostimulating the muscle at different frequencies. A second step of the method includes determining forces developed by the muscle in response to the electrostimulations of the first step. A third step includes determining a muscle fatigue on basis of the forces determined in the second step.

Abstract: A method for determining a muscle fatigue of a muscle includes the step of electrostimulating the muscle at different frequencies, wherein the electrostimulation includes, at each frequency, a repetition of pulses during a period of time lower than 5 s. The method further includes the steps of determining forces developed by the muscle in response to the electrostimulations of step (i); and determining a muscle fatigue on basis of the determined forces.

Abstract: A device for the transcutaneous electrical stimulation of the trigeminal nerve is provided. The device has an elongated symmetrical support with at least one electrode pair, and the support can be applied on a person's forehead in the supraorbital region to cover the afferent paths of the supratrochlear and supraorbital nerves of the ophthalmic branch of the trigeminal nerve. Each electrode pair contacts a self-adhesive conductive gel that at least partially covers one surface of the support for attaching the support to the forehead to be applied to two lateral zones with the exception of an insulating central zone. Each lateral zone has one electrode of the electrode pair, an electric circuit for supplying to the electrode pair electric pulses that have a predefined intensity, and a measurement means for measuring the intensity of the supplied pulses that is connected to the electric circuit.

Abstract: The current invention concerns a device and a method for the abortive or preventive treatment of a headache via external trigeminal nerve stimulation, in particular transcutaneous non-invasive electrical trigeminal stimulation via consecutive pulses. The pulses comprise a pulse repetition frequency of between 0.5 kilohertz and 50 kilohertz; a pulse width of between 1 microseconds and 500 microseconds; and a pulse amplitude of between 0.1 milliampere and 200 milliampere.

Abstract: A device for the transcutaneous electrical stimulation of the trigeminal nerve is provided. The device has an elongated symmetrical support with at least one electrode pair, and the support can be applied on a person's forehead in the supraorbital region to cover the afferent paths of the supratrochlear and supraorbital nerves of the ophthalmic branch of the trigeminal nerve. Each electrode pair contacts a self-adhesive conductive gel that at least partially covers one surface of the support for attaching the support to the forehead to be applied to two lateral zones with the exception of an insulating central zone. Each lateral zone has one electrode of the electrode pair, an electric circuit for supplying to the electrode pair electric pulses that have a predefined intensity, and a measurement means for measuring the intensity of the supplied pulses that is connected to the electric circuit.

Abstract: A device for the transcutaneous electrical stimulation of the trigeminal nerve is provided. The device has an elongated symmetrical support with at least one electrode pair, and the support can be applied on a person's forehead in the supraorbital region to cover the afferent paths of the supratrochlear and supraorbital nerves of the ophthalmic branch of the trigeminal nerve. Each electrode pair contacts a self-adhesive conductive gel that at least partially covers one surface of the support for attaching the support to the forehead to be applied to two lateral zones with the exception of an insulating central zone. Each lateral zone has one electrode of the electrode pair, an electric circuit for supplying to the electrode pair electric pulses that have a predefined intensity, and a measurement means for measuring the intensity of the supplied pulses that is connected to the electric circuit.

Abstract: A system and method for the acute non-invasive treatment of a migraine attack. The system includes at least one skin electrode for placement on the forehead of a patient, and is configured to provide consecutive biphasic electrical pulses via the at least one skin electrode to the supratrochlear and supraorbital nerves of the ophthalmic branch of the trigeminal nerve during a prolonged time span which may be for at least 10 minutes.

Abstract: The current invention concerns a system and a method for the acute non-invasive treatment of a migraine attack. The system comprises at least one skin electrode for placement on the forehead of a patient. The system is configured for providing consecutive biphasic electrical pulses via said at least one skin electrode to the supratrochlear and supraorbital nerves of the ophthalmic branch of the trigeminal nerve during a prolonged time span. Preferably, the time span is at least 10 minutes.

Abstract: An automated adaptive muscle stimulation system and method are disclosed. The stimulation system includes at least one electrode assembly adapted to deliver a muscle stimulation signal to the tissue of a user, a sensor system adapted to detect a muscle response, and an electrical stimulation device operably coupled to the at least on electrode assembly and the sensor system, the electrical stimulation device including a control system operable to automatically diagnose at least one characteristic of a muscle from the detected muscle response and adjust at least one parameter of the muscle stimulation signal in response thereto to deliver an adjusted muscle stimulation signal. A dual mode muscle stimulation system adapted to accept first and second data sets and provide first and second levels of treatment data is also disclosed.

Abstract: The present invention provides a device for the transcutaneous electrical stimulation of the trigeminal nerve.

Abstract: An automated adaptive muscle stimulation system and method are disclosed. The stimulation system includes at least one electrode assembly adapted to deliver a muscle stimulation signal to the tissue of a user, a sensor system adapted to detect a muscle response, and an electrical stimulation device operably coupled to the at least on electrode assembly and the sensor system, the electrical stimulation device including a control system operable to automatically diagnose at least one characteristic of a muscle from the detected muscle response and adjust at least one parameter of the muscle stimulation signal in response thereto to deliver an adjusted muscle stimulation signal. A dual mode muscle stimulation system adapted to accept first and second data sets and provide first and second levels of treatment data is also disclosed.

Abstract: An automated adaptive muscle stimulation system and method are disclosed. The stimulation system includes at least one electrode assembly adapted to deliver a muscle stimulation signal to the tissue of a user, a sensor system adapted to detect a muscle response, and an electrical stimulation device operably coupled to the at least on electrode assembly and the sensor system, the electrical stimulation device including a control system operable to automatically diagnose at least one characteristic of a muscle from the detected muscle response and adjust at least one parameter of the muscle stimulation signal in response thereto to deliver an adjusted muscle stimulation signal. A dual mode muscle stimulation system adapted to accept first and second data sets and provide first and second levels of treatment data is also disclosed.

Abstract: A system and method for the acute non-invasive treatment of a migraine attack. The system includes at least one skin electrode for placement on the forehead of a patient, and is configured to provide consecutive biphasic electrical pulses via the at least one skin electrode to the supratrochlear and supraorbital nerves of the ophthalmic branch of the trigeminal nerve during a prolonged time span which may be for at least 10 minutes.