A respiration promoting apparatus and a method for promoting respiration for coordinately stimulating a phrenic nerve of a patient for activating a diaphragm of the patient by a pulsating field that is produced by interference stimulation principles.

Transducer arrays for applying alternating electric fields (e.g., tumor treating fields a.k.a. TTFields) to a subject's body typically include a plurality of capacitively coupled electrode elements. Often, certain electrode elements on a given array tend to run hotter than other electrode elements. For example, in many anatomical contexts, the corner elements of the transducer array tend to run hotter than the non-corner elements. The spread of operating temperatures between the electrode elements that tend to run hotter and the other electrode elements can be reduced by wiring a capacitor in series with those electrode elements that tend to run hotter (e.g., the corner elements).

Methods and devices for positioning a nerve stimulation device on a subject are provided. Aspects are directed to methods of positioning a stimulation device on an anatomic target of a subject comprising positioning an alignment guide adjacent to at least a first alignment point associated with the anatomic target on the subject, wherein the alignment guide indicates a first target location on the anatomic target of the subject, and positioning the stimulation device at the first target location.

A sensor including electrodes, a control module and a physical layer module. The electrodes are configured to (i) attach to a patient, and (ii) receive a first electromyographic signal from the patient. The control module is connected to the electrodes. The control module is configured to (i) detect the first electromyographic signal, and (ii) generate a first voltage signal. The physical layer module is configured to: receive a payload request from a console interface module or a nerve integrity monitoring device; and based on the payload request, (i) upconvert the first voltage signal to a first radio frequency signal, and (ii) wirelessly transmit the first radio frequency signal from the sensor to the console interface module or the nerve integrity monitoring device.

Provided are an optimal stimulation position combination determination method using a preset guide system, a server, and a computer program. The optimal stimulation position combination determination method using a preset guide system according to various embodiments of the present invention is executed by a computing device and includes: simulating electric stimulation for a brain of a subject by using a plurality of stimulation position according to a preset guide system; and determining an optimal stimulation position combination for applying the electric stimulation to the preset target point in the brain of the subject by using a simulation result of the electric stimulation.

A method for generating stimulation parameters, an electrical stimulation control apparatus and an electrical stimulation system are provided. After receiving a brainwave signal, the brainwave signal is decomposed to obtain a first sub-signal and a second sub-signal. Then, the first sub-signal is analyzed to obtain an intrinsic frequency series, and the second sub-signal is converted to a Boolean signal. Subsequently, the intrinsic frequency series and the Boolean signal, which serve as a set of stimulation parameters, are outputted to the stimulator, enabling the stimulator to generate a stimulus signal.

Provided are an electric stimulation simulation method, a server, and a computer program for determining an optimal stimulation position combination. The electric stimulation simulation method for determining an optimal stimulation position combination according to various embodiments of the present invention is executed by a computing device and includes: filtering stimulation positions corresponding to a preset condition among the plurality of stimulation positions according to a preset guide system; and simulating the electric stimulation for the brain of the subject by using remaining stimulation positions except for the filtered stimulation positions among the plurality of stimulation positions.

The invention relates to a control method for a neuroprosthetic device, allowing to monitor and reduce pathological tremors in users via the stimulation of the peripheral muscles and modulation of the afferent pathways.

The present invention relates to systems for providing noninvasive cranial nerve stimulation and methods for using the same. The present invention administers therapy through electrodes that are noninvasively attached to one or more of a subject’s cranial nerve. The systems can be used to enhancing rehabilitation and recovery by improving neuroplasticity and coupling muscle training with feedback.

An apparatus includes a stimulation part that stimulates a brain of an object; a sensing part that measures a response of the brain to a stimulation; and a control part that determines whether a first response entraining oscillation synchronized in a plurality of brain areas of the object is derived or not, based on a measured brain response. The stimulation part is an electrical stimulation part that transfers a transcranial alternating current stimulation (tACS) and the transcranial alternating current stimulation is a first combined stimulation in which a signal is repeatedly ON/ OFF according to a predetermined first frequency and an ON signal according to the first frequency is applied as a stimulation according to a predetermined second frequency.