A system and method for integrating a text messaging notification system with an electronic medical record (EMR) system. A messaging notification system that provides for secure text messaging to a mobile phone is integrated with an EMR system wherein the text messages are stored as medical records in the EMR system. No data is saved on the message notification system but stored directly in the EMR system. The EMR system is integrated with the mobile device operating system to support acknowledgement of read and delivery receipts.

A system and method for integrating a text messaging notification system with an electronic medical record (EMR) system. A messaging notification system that provides for secure text messaging to a mobile phone is integrated with an EMR system wherein the text messages are stored as medical records in the EMR system. No data is saved on the message notification system but stored directly in the EMR system. The EMR system is integrated with the mobile device operating system to support acknowledgement of read and delivery receipts.

An improved home automation system is provided to facilitate senior care, as well as to facilitate care for individuals suffering from Alzheimer's disease or other dementias. A home control unit is provided that is connected to, and interfaces with, a combination of health equipment, smart home appliances, a smart medicine cabinet, a smart pantry, wearable sensors, motion detectors, video cameras, microphones, video monitors, speakers, smart thermostat, lighting, floor sensors, bed sensors, smoke detectors, glass breakage detectors, door sensors, and other perimeter sensors. A distributed computational architecture is provided having a CPU associated with each video camera and an associated proximate microphone and speaker, wherein speech detection and processing, and video processing, is performed by each such CPU in conjunction with its associated video camera, microphone, and speaker. Remote backup for such distributed speech processing is selectively provided by a remote server based upon confidence scopes generated by each such CPU. The distributed computational architecture is also utilized for video processing to facilitate peer-to-peer video conferencing communication using industry standard formats and to reduce latency and response times that would otherwise be encountered using remote servers.

A Digital Family Care Tracking and Coordination (DFCTC) computing system associates a member with one or more care managers. The system stores member data on a cloud-based storage device. The one or more care managers are given access to the personal care data associated with the member via a mobile application. Member data includes medical information and relevant notes pertaining to a member's healthcare journey.

A Digital Family Care Tracking and Coordination (DFCTC) computing system associates a member with one or more care managers. The system stores member data on a cloud-based storage device. The one or more care managers are given access to the personal care data associated with the member via a mobile application. Member data includes medical information and relevant notes pertaining to a member's healthcare journey.

A system includes a data collection engine, a plurality of items including radio-frequency identification chips, a plurality of third party data and insight sources, a plurality of interfaces, client devices, a server and method thereof for preventing suicide. The server includes trained machine learning models, business logic and attributes of a plurality of patient events. The data collection engine sends attributes of new patient events to the server. The server can predict an adverse event risk of the new patient events based upon the attributes of the new patient events utilizing the trained machine learning models.

The present disclosure generally relates to user interfaces for health applications. In some embodiments, exemplary user interfaces for managing health and safety features on an electronic device are described. In some embodiments, exemplary user interfaces for managing the setup of a health feature on an electronic device are described. In some embodiments, exemplary user interfaces for managing background health measurements on an electronic device are described. In some embodiments, exemplary user interfaces for managing a biometric measurement taken using an electronic device are described. In some embodiments, exemplary user interfaces for providing results for captured health information on an electronic device are described. In some embodiments, exemplary user interfaces for managing background health measurements on an electronic device are described.

The present disclosure generally relates to user interfaces for health applications. In some embodiments, exemplary user interfaces for managing health and safety features on an electronic device are described. In some embodiments, exemplary user interfaces for managing the setup of a health feature on an electronic device are described. In some embodiments, exemplary user interfaces for managing background health measurements on an electronic device are described. In some embodiments, exemplary user interfaces for managing a biometric measurement taken using an electronic device are described. In some embodiments, exemplary user interfaces for providing results for captured health information on an electronic device are described. In some embodiments, exemplary user interfaces for managing background health measurements on an electronic device are described.

This application discloses a system for recording medical image data for production on a portable digital recording medium such as CDs and DVDs. Aspects of this disclosure include a robotic disc burning system that can receive a request for medical imaging data generated by an imaging modality and record all of the following onto an optical disc that is removable from the robotic disc burning system: the medical imaging data, data that is related to the medical imaging data, and a viewing program configured to allow viewing by a general purpose computer of the medical imaging data that is recorded on the disc. The system includes, among other components, a labeling module configured to produce a label on the optical disc without manual application of the label onto the optical disc. Additional aspects of this disclosure include an associated method for recording medical image data.

A computer implemented method includes receiving an event log corresponding to event entries of an electronic diary of a participant of a clinical trial, wherein the event log is generated in a client device, and the event log includes an event identifier and an event timestamp for at least two event entries; determining a block of event entries within the event log, the block including a first event entry and a second event entry at least one of whose event timestamps are verified being correct in view of corresponding service timestamps of a server apparatus, wherein the first and the second event entry are arranged chronologically; and adjusting the event timestamp of the second event entry based on the first timestamp.