An application for tracking disease, pain, and mental health symptom triggers including an input module for inputting variables from a user in electronic communication with an output variable module, an analysis module for analyzing input variables and output variables, and an output module for presenting results to the user. A method of tracking disease, pain, and mental health triggers, by a user inputting data about nutrition, medication, lifestyle, symptoms, pain, and user defined metrics in an application, performing an analysis on the data, and outputting a result from the data identifying daily activities that effect the user's disease/mental health and trigger symptoms. A method of preventing adverse events.

A heart beat detection device comprises at least one optical reflection sensor to be positioned on the skin of a person. The sensor unit is provided with a light emitter and a corresponding light receiver which converts the light reflected by the skin into an electric signal and comprises electrically adjustable optical filters connected to the emitter, to the receiver or to both of them in order to select, upon operation, a desired light wavelength and perform processing of the signals thus obtained in order to reinforce the heart beat signal. A system with this device and a detection method are also described.

A heart beat detection device comprises at least one optical reflection sensor to be positioned on the skin of a person. The sensor unit is provided with a light emitter and a corresponding light receiver which converts the light reflected by the skin into an electric signal and comprises electrically adjustable optical filters connected to the emitter, to the receiver or to both of them in order to select, upon operation, a desired light wavelength and perform processing of the signals thus obtained in order to reinforce the heart beat signal. A system with this device and a detection method are also described.

Improvements to intracardiac devices such as intracardiac blood pump assemblies, and associated methods. In one example, the present technology includes systems and methods for pacing the heart, and/or performing cardiac ablation using electrodes mounted on a portion of the intracardiac device. In another example, the present technology includes systems and methods for detecting mural thrombi in a patient's heart using electrical sensors or ultrasonic phased arrays mounted on the intracardiac device. In another example, the present technology includes systems and methods for detecting tissue changes and reactions in heart tissue during treatment using one or more temperature sensors. In another example, the present technology includes an improved distal tip for use with an intracardiac device. In another example, the present technology includes systems and methods for maintaining an intracardiac device in a desired position within a patient's heart using magnets or ultrasonic phased arrays mounted on the intracardiac device.

The present invention relates to a smart wound management system and to a method of medical treatment and management for wounds.

The present invention relates to a smart wound management system and to a method of medical treatment and management for wounds.

The present disclosure relates to a wearable sensor device (10) for arrangement to a skin surface of a subject. The wearable sensor device (10) comprises a base structure (1) which, when the wearable sensor device is arranged to a skin surface of a subject, provides a proximal skin facing surface (7) proximal to the skin surface and a distal skin facing surface (8) distal to the skin surface; one or more electrodes (2a, 2b, 2c, 2d) arranged on a proximal skin facing surface (7) of the base structure (1) and configured to provide an electrical signal containing information of the subject; an electronics module (3) configured to process the electrical signal provided by the one or more electrodes (2a, 2b, 2c, 2d), and electrically conductive tracks (2) electrically connecting said one or more electrodes (2a, 2b, 2c, 2d) to the electronics module (3), wherein the electronics module (3) is arranged on the distal skin facing surface of the base structure (1). A method of manufacturing the wearable sensor device (10) is also provided.

The present disclosure relates to a wearable sensor device (10) for arrangement to a skin surface of a subject. The wearable sensor device (10) comprises a base structure (1) which, when the wearable sensor device is arranged to a skin surface of a subject, provides a proximal skin facing surface (7) proximal to the skin surface and a distal skin facing surface (8) distal to the skin surface; one or more electrodes (2a, 2b, 2c, 2d) arranged on a proximal skin facing surface (7) of the base structure (1) and configured to provide an electrical signal containing information of the subject; an electronics module (3) configured to process the electrical signal provided by the one or more electrodes (2a, 2b, 2c, 2d), and electrically conductive tracks (2) electrically connecting said one or more electrodes (2a, 2b, 2c, 2d) to the electronics module (3), wherein the electronics module (3) is arranged on the distal skin facing surface of the base structure (1). A method of manufacturing the wearable sensor device (10) is also provided.

A stimulation device includes a body containing at least one stimulation means adapted to be transcutaneously attached to the neck of a subject. The stimulation means is adapted to generate a stimulating signal during a stimulating state. The stimulation means is positioned to be in stimulating contact with the sternocleidomastoid muscle and the trunks of the lesser occipital nerve, greater auricular nerve, transverse cervical nerve or supraclavicular nerve with their autonomic fibers synchronously. The stimulation can be provided in the form an electrical, optical, vibrational, thermal, mechanical and/or magnetic stimulation. The stimulation device can be used bilaterally on the right and left sides of the subject's neck, working as a system in a synchronous or alternating manner.

A system for monitoring the reaction of a user and for adjusting output content based on the user's reaction includes an output unit, a monitoring unit, a synchronization unit, an analysis unit and a control unit. The output unit presents content to the user. The monitoring unit monitors a user parameter during a period during which a first content is presented to the user in order to obtain monitoring data from the user. The monitoring data is synchronized during the period with the first content so as to link in time the monitoring data and the first content. The analysis unit analyzes the monitoring data and links it to the first content in order to determine the user's reaction to the first content. The control unit controls the output unit to present a second content to the user that is selected based on the user's reaction to the first content.