A method for providing electrical stimulation to a user as a user performs a set of tasks during a time window, the method comprising: providing an electrical stimulation treatment, characterized by a stimulation parameter and a set of portions, to a brain region of the user in association with the time window; for each task of the set of tasks: receiving a signal stream characterizing a neurological state of the user; from the signal stream, identifying a neurological signature characterizing the neurological state associated with the task; and modulating the electrical stimulation treatment provided to the brain region of the user based upon the neurological signature, wherein modulating comprises delivering a portion of the set of portions of the electrical stimulation treatment to the brain region of the user, while maintaining an aggregate amount of the stimulation parameter of the treatment provided during the time window below a maximum limit.

The present disclosure relates to sensing devices, systems, and their methods of use for aiding transcutaneous magnetic stimulation (tMS) therapy, such as for the treatment, alleviation, and the management of pain. The sensing device being configured for determining and measuring the efficacy thereof. Particularly, the present disclosure is directed to providing sensing devices, systems including the same, and their methods of use in identifying and targeting one or more sources of pain, such as chronic neuropathic pain, as well as for facilitating in the treatment thereof.

An electromagnetic stimulator and iontophoresis device used in treating retina and optical nerve diseases is provided. The electromagnetic stimulator and iontophoresis device enables to reach required threshold values for treating the retina and optical nerve diseases with magnetic fields to eliminate a thermal damage risk formed at a cellular level by cooling cages closed over electromagnetic coils, and allows usage by a patient alone at home, who has low vision, without receiving any professional help by an audio command guidance system including a speaker.

Devices, systems and methods are disclosed for treating a variety of diseases and disorders that are primarily or at least partially driven by an imbalance in neurotransmitters in the brain, such as asthma, COPD, depression, anxiety, epilepsy, fibromyalgia, and the like. The invention involves the use of an energy source comprising magnetic and/or electrical energy that is transmitted non-invasively to, or in close proximity to, a selected nerve to temporarily stimulate, block and/or modulate the signals in the selected nerve such that neural pathways are activated to release inhibitory neurotransmitters in the patient's brain.

Provided is a therapeutic agent targeting and fixation medical device that precisely targets a therapeutic agent including a magnetic substance by using an optimized array of magnets in consideration of an affected area of a patient.

Provided is a therapeutic agent targeting and fixation medical device that precisely targets a therapeutic agent including a magnetic substance by using an optimized array of magnets in consideration of an affected area of a patient.

A system for therapeutic treatments with electromagnetic waves is described. The system comprises an antenna and an apparatus configured to generate a supply current for the antenna in order to generate the electromagnetic waves. The apparatus comprises a digital processing circuit configured to generate a first PWM signal, a switching stage configured to generate an amplified PWM signal, an analog low-pass or band-pass filter configured to generate the supply current by filtering the amplified PWM signal, and a current sensor configured to provide a digital sample indicative of the amplitude of the supply current.

Specifically, the digital processing circuit generates a sequence of first digital values of a periodic base pulse. Moreover, the digital processing circuit generates a second PWM signal having a packet switch-on period and a packet switch-off period, generates a third PWM signal having a train switch-on period and a train switch-off period, and generates an enable signal as a function of the second PWM signal and the third PWM signal. The digital processing circuit generates then a second digital value, wherein the second digital value is set to the first digital value when the enable signal has a first logic level and to zero when the enable signal has a second logic level.

In particular, the digital processing circuit generates the first PWM signal as a function of a third digital value indicative of the duty cycle of the first PWM signal, and varies the third digital value via a discrete proportional-integral regulation configured to regulate the difference between the second digital value and the digital sample to zero.

A system includes a communication interface for receiving information that includes data collected from an array of neural activity sensors that were placed on a patient during a session of applied stimuli. A processor is configured to analyze the received information to obtain a frequency spectrum for each sensor for a given stimulus of the applied stimuli. Neural network frequencies that correspond to an indicated impaired functionality of the nervous system of the patient are selected. For each selected frequencies, a spatial map of neural activity is generated. Each of the generated spatial maps is compared with retrieved corresponding spatial maps to identify treatment frequencies from among the selected neural network frequencies. A treatment protocol is generated for input into an electromagnetic field generator to cause the generator to apply to the patient an electromagnetic field at each identified treatment frequency.

Disclosed herein are apparatuses for manipulation of an ear device within the ear canal of a subject. Also disclosed herein are methods of using said apparatuses for the insertion, removal, or other manipulations of the ear device. Also disclosed herein are methods of making the apparatuses, and kits containing the apparatus with instructions for use.

The subject of the invention is a system for inducing an electric field in a conducting medium, especially for medical applications. The system according to the invention induces a flow of electric current through objects located in the conducting medium, which may have shapes that are complex or change with time, and has a medical application consisting in a complete or partial nerve impulse block. The system for inducing an electric field in the conducting medium comprises at least two component cores, whose magnetization is configured to be changed independently by a change of electric currents flowing through windings that are wound around them, and a torus-shaped encasement whose outer surface is electrically non-conductive, wherein the component cores are situated inside the encasement and encircle its opening, and the encasement is situated inside the conducting medium.