Apparatus for providing muscular biofeedback, comprising: facewear supporting biosensors arranged such that, in use, the biosensors are situated for detecting activity of a predetermined set of facial muscles; a feedback unit for providing biofeedback to a wearer of the facewear; and a control unit coupled to the biosensors and the feedback unit and arranged to identify patterns in the signals from the biosensors characteristic of one or more predefined imbalances in muscle activity between the left and right sides of the face; wherein the control unit is configured to, on identifying a pattern in the signals from biosensors characteristic of a first predefined imbalance in muscle activity between the left and right sides of the face, cause the feedback unit to provide biofeedback in correspondence with the imbalance.

Methods and systems for analyzing brain functional activity data are provided. Also provided are systems that find use in performing the present methods.

Methods and systems for analyzing brain functional activity data are provided. Also provided are systems that find use in performing the present methods.

Systems and methods of the present disclosure are directed to neural stimulation via non-invasive sensory stimuli. The non-invasive sensory stimuli can reduce neuroinflammation, improving synaptic plasticity and stimulating neural networking, and improving microglial-mediated clearance of cerebral insults, which would otherwise contribute to the progression of brain atrophy, by inducing synchronized gamma oscillations in at least one region of a brain in a subject. Stimulations can adjust, control or otherwise manage the frequency of the neural oscillations to provide beneficial effects to one or more cognitive states or cognitive functions of the brain, while mitigating or preventing adverse consequences on a cognitive state or cognitive function that stem from progression of brain atrophy.

A system for analyzing effects of mineral crystals to a human body and the method for performing the system comprises a helmet, a brainwave; a brainwave transceiver; a processor unit. The processor unit includes a processor transceiver, a brainwave calculating unit, a testing person database, a physiological and psychological effect database, a brainwave comparison module. In test, a specific mineral crystal is located in different distance from a testing person to test effects of the mineral crystal to the testing person; the testing person wears the helmet and the brainwave transceiver transmits measured brainwaves to the processor unit; and then the processor unit calculates statistical data about the brainwaves, and from the physiological and psychological effect database, effects of the mineral crystal to the testing person can be determined.

A system for analyzing effects of mineral crystals to a human body and the method for performing the system comprises a helmet, a brainwave; a brainwave transceiver; a processor unit. The processor unit includes a processor transceiver, a brainwave calculating unit, a testing person database, a physiological and psychological effect database, a brainwave comparison module. In test, a specific mineral crystal is located in different distance from a testing person to test effects of the mineral crystal to the testing person; the testing person wears the helmet and the brainwave transceiver transmits measured brainwaves to the processor unit; and then the processor unit calculates statistical data about the brainwaves, and from the physiological and psychological effect database, effects of the mineral crystal to the testing person can be determined.

An apparatus for measuring patient data includes a frame having a plurality of electrode hubs. Each hub can include one or more electrode members. The frame can be configured to receive a head of a patient. Each of the electrode hubs can have a single electrode member or a plurality of electrode members that extend from or are connected to an outer member for contacting a scalp of the head of the patient. The outer member can have at least one circuit configured to transmit data received by at least one of the electrode members to a measurement device via a wireless communication connection (e.g. Bluetooth, near field communication, etc.) or a wired communication connection.

An apparatus for measuring patient data includes a frame having a plurality of electrode hubs. Each hub can include one or more electrode members. The frame can be configured to receive a head of a patient. Each of the electrode hubs can have a single electrode member or a plurality of electrode members that extend from or are connected to an outer member for contacting a scalp of the head of the patient. The outer member can have at least one circuit configured to transmit data received by at least one of the electrode members to a measurement device via a wireless communication connection (e.g. Bluetooth, near field communication, etc.) or a wired communication connection.

In described embodiments, a device and method for diagnosing brain and neurological issues is provided. The device measures the performance of Convergence, Divergence, and binocular tracking capabilities of a subject's eyes, which can be used to determine whether a subject has experienced a brain or other neurological event.

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.