Systems, methods and techniques for providing sensory input to a subject through non-invasive brain stimulation are generally described. In some examples, an input signal related to an environment may be received. In various further examples, a communication to the subject may be determined in response to the input signal. In some examples, an output signal corresponding to the determined communication may be generated. Some further examples may comprise non-invasively stimulating a portion of the subject's brain with the output signal with a stimulation subsystem positioned outside of the subject's scalp. In various examples, the stimulation of the portion of the subject's brain may be effective in producing a sensory response perceivable by the subject.

An apparatus for cortical mapping and method for using same are disclosed. The apparatus comprises a ECoG electrodes array, a stimulation pad, a neural interface processor, and a computing device for mapping eloquent cortical regions of a subject's brain without using exogenous stimulation and with high resolution.

A method for evaluating hearing of a user comprising: generating a baseline hearing profile for the user comprising a set of gain values based on a volume setting, each gain value in the set of gain values corresponding to a frequency band in a set of frequency bands; accessing a soundbite comprising a phrase characterized by a frequency spectrum predominantly within one frequency band; playing the soundbite amplified by a first gain in the frequency band; playing the soundbite amplified by a second gain in the frequency band; receiving a preference input representing a preference of the user from amongst the soundbite amplified by the first gain and the soundbite amplified by the second; and modifying a gain value, corresponding to the frequency band, in the baseline hearing profile based on the preference input to generate a refined hearing profile compensating for hearing deficiency of the user.

The present invention provides a system for real-time pain detection, which comprises a means for acquiring biomedical signals relating to pain in a subject in need thereof, a computing means for transforming the acquired biomedical signals during a given period of time into the signal data for measurement of pain, analyzing the data to divide into two or more models, including at least a pain model which is defined by the data showing a peak-shaped profile and a non-pain model which is defined by the data showing a flat profile, whereby the pain status of the subject is measured based on the results of the analysis, a process means for generating an index of pain using the results of the analysis depending on the subject's demands or sensation, and a display showing the pain status of the subject.

An image of a pinna is captured. Based on the image of the pinna, a non-linear transfer function is determined which characterizes how sound is transformed at the pinna. A signal is output indicative of one or more audio cues to facilitate spatial localization of sound via the pinna, where the one or more audio cues is based on the non-linear transfer function.

Methods and systems for use in treating one or more patient's sensory impairment, e.g., associated with peripheral neuropathy. An exemplary system may be configured to generate treatment information for treating sensory impairment in at least one body portion using photonic energy from a therapeutic laser based on data indicative of damage.

The present application provides for use of a somatosensory evoked potential (SEP) during the hyperacute stroke phase as marker for predicting the outcome of endovascular treatment in a patient suffering from acute ischemic stroke, wherein when the SEP ipsilateral to the stroke site has an amplitude from 60% to 100% with respect to the corresponding SEP contralateral to the stroke site this is indicative of good outcome of the endovascular treatment, whereas when the SEP ipsilateral to the stroke site has an amplitude from 0% to 20% with respect to the corresponding SEP contralateral to the stroke site this is indicative of bad outcome of the endovascular treatment.

A method for evaluating hearing of a user comprising: generating a baseline hearing profile for the user comprising a set of gain values based on a volume setting, each gain value in the set of gain values corresponding to a frequency band in a set of frequency bands; accessing a soundbite comprising a phrase characterized by a frequency spectrum predominantly within one frequency band; playing the soundbite amplified by a first gain in the frequency band; playing the soundbite amplified by a second gain in the frequency band; receiving a preference input representing a preference of the user from amongst the soundbite amplified by the first gain and the soundbite amplified by the second; and modifying a gain value, corresponding to the frequency band, in the baseline hearing profile based on the preference input to generate a refined hearing profile compensating for hearing deficiency of the user.

A system for monitoring neural activity of a living subject is provided. The system may comprise a correspondence module configured to be in communication with (1) a neural module and (2) one or more additional modules comprising a sensing module, another neural module, and/or a data storage module. The neural module(s) are configured to collect neural data indicative of perceptions experienced by the living subject. The sensing module may be configured to collect (1) sensor data indicative of real-world information about an environment around the living subject, and/or (2) sensor data indicative of a physical state or physiological state of the living subject. The data storage module may be configured to store prior neural data and/or prior sensor data. The correspondence module may be configured to measure a correspondence (a) between the neural data collected by the neural module(s) and the sensor data collected by the sensing module, (b) between the neural data collected by two or more neural modules, and/or (c) between the neural data collected by the neural module(s) and the prior data stored in data storage module. The measured correspondence can be used to determine a presence, absence, or extent of a potential cognitive or physiological disturbance of the living subject.

A system for comprehensive multisensory vision, hearing, and cognitive screening includes a headwear test unit comprising a configurable video, audio, and hand-gesture capable testing device. The system further includes an identification, anonymization and security module, a patient interface, an operator interface, a communication module, and a unit charging and calibration module and/or station. An adaptive real-time compiler compiles sequences of optometric hearing and cognition tests. A cloud-based web service module is configured for storing encrypted personal optometric information. A machine learning module is operatively connected to the cloud-based web service module.