This technical solution relates to a computer and medicine field, in particular, to the software and hardware system for rehabilitation of patients with upper limb post-stroke cognitive impairment.

The technical result is improving efficiency of rehabilitation of patients with upper limb post-stroke cognitive impairment.

Software and hardware system for rehabilitation of patients with upper limb post-stroke cognitive Impairment comprising: virtual reality glove (VR-glove) with integral sensing elements tracking movement of patient's fingers and hand in space; controller with a sensor located on a shoulder joint to collect information about movements of the shoulder joint during exercising in task-specific games; encephalograph for scanning patient's brain response during exercising in task-specific games by detection of electric pulses outgoing from its different areas; computer with installed task-specific games which stimulate development of patient's arm motor functions, and the computer is configured to: receive, from the above devices, information about movement of patient's fingers and arm, about brain activity during exercising in task-specific games; perform deep computerized analysis of the obtained information about functioning of patient's brain, arm muscles and fine motor skills; determine level of patient fatigability on the basis of the analyzed information, what game exercises improve patient rehabilitation and what exercises require correction; correct automatically necessary game exercises and select the most effective exercises; store patient rehabilitation results in the analytics store database (big data) after each gaming session.

An external medical device includes monitoring circuitry configured to monitor a cardiac condition of a patient using the external medical device; and a controller configured to: receive at least one of patient input and non-patient user input of a patient's ability; determine a patient interaction mode of the external medical device based on the at least one of the patient input and the non-patient user input; and adapt the patient interaction mode of the external medical device over time based on the at least one of the patient input and the non-patient user input.

A method includes measuring, using at least one sensor, strain on a nail plate of a subject, wherein the at least one sensor outputs a data stream corresponding to the measuring, communicating the data stream to a receiver, and interpreting, by the receiver, the data stream to determine a parameter of interest of the subject.

The present invention relates to the field of medical emergency signaling and user-activated medical alarm systems. In particular, a wrist-worn medical alert device (10) for conveying an emergency message to a caregiver (80) is presented, wherein the medical alert device is adapted to be worn at a wrist (101) of a subject (100), the device comprising: a PPG unit (20) adapted to acquire a first PPG signal (26) at first wavelength (λ1) and a second PPG signal (25) at second wavelength (λ2) over time at the wrist of the subject; a processing unit (30) adapted to receive the first and second PPG signals (25, 26) and to determine a finger movement of one or more fingers (102) of the subject (100) based on the first and second PPG signals; and a communication unit (40) adapted to transmit, based on the determined finger movement, an emergency message to the caregiver (80). The present invention further relates to a corresponding system (1), method (60) and computer program for carrying out said method.

Sensors that include carbon nanotubes, and articles that include the sensors. The sensors may include a buckypaper. The sensors may be flexible. Methods of making sensors, which may include printing an electrode on a substrate. The printing of an electrode may be achieved with an inkjet printer.

An assistance apparatus includes a first wire and a second wire that couple an upper-body belt and a left knee belt to each other on or above a front part and back part of the body of a user, respectively, a third wire and a fourth wire that couple the upper-body belt and a right knee belt to each other on or above the front part and back part of the body of the user, respectively, a motor, a left sensor on the left hand of the user, and a right sensor on the right hand of the user. When a left sensor value of the left sensor is larger than a right sensor value of the right sensor, the tension of the first wire and the second wire is made greater than the tension of the third wire and the fourth wire. When the right sensor value is larger than the left sensor value, the tension of the third wire and the fourth wire is made greater than the tension of the first wire and the second wire.

Data regarding typing by a user may be collected and analyzed in order to assess one or more health conditions or functional states of the user. Each health condition that is assessed may be a disease or a symptom of a disease. For instance, based on the typing data, a computer may assess the presence, severity or probability of, or a change in, one or more symptoms such as: mild cognitive impairment; dementia; impairment of fine motor control; impairment of sensory-motor feedback; or behavioral impairment. A computer may calculate keystroke tensors that encode information about the typing. A computer may select or derive features from the keystroke tensors. These features may be fed into one or more machine learning algorithms, which in turn may output an assessment of a health condition or functional state of the user.

The present disclosure relates generally to an awareness enhancement apparatus and method for undesirable repeated behaviors, including but not limited to obsessive compulsive and related disorders, and most relevant to trichotillomania (hair pulling), onychophagia (nail biting), dermatillomania (skin picking), and thumb sucking, among others. More particularly, the disclosure relates to a sensing and feedback device and associated methods of use which indicate a behavior based on the user's physical gestures and positioning of the hands, these gestures and positions being related to these undesirable behaviors typical of such disorders, and alerting the user so that he or she can reduce the behavior.

The present invention relates to methods for remotely tuning treatment parameters in movement disorder therapy systems where the subject and clinician are located remotely from each other. The present invention still further provides methods of quantifying movement disorders for the treatment of patients who exhibit symptoms of such movement disorders including, but not limited to, Parkinson's disease and Parkinsonism, Dystonia, Chorea, and Huntington's disease, Ataxia, Tremor and Essential Tremor, Tourette syndrome, stroke, and the like. The present invention yet further relates to methods of remotely tuning a therapy device using objective quantified movement disorder symptom data to determine the therapy setting or parameters to be transmitted and provided to the subject via his or her therapy device. The present invention also provides treatment and tuning remotely, allowing for home monitoring of subjects.

The present invention relates to methods for remotely tuning treatment parameters in movement disorder therapy systems where the subject and clinician are located remotely from each other. The present invention still further provides methods of quantifying movement disorders for the treatment of patients who exhibit symptoms of such movement disorders including, but not limited to, Parkinson's disease and Parkinsonism, Dystonia, Chorea, and Huntington's disease, Ataxia, Tremor and Essential Tremor, Tourette syndrome, stroke, and the like. The present invention yet further relates to methods of remotely tuning a therapy device using objective quantified movement disorder symptom data to determine the therapy setting or parameters to be transmitted and provided to the subject via his or her therapy device. The present invention also provides treatment and tuning remotely, allowing for home monitoring of subjects.