The concepts and technologies disclosed herein are directed to secure user-controlled personal health records (“PHRs”). According to one aspect disclosed herein, a patient device can launch a PHR wallet device application. The patient device can connect, via the PHR wallet device application, to a PHR server that stores PHR associated with a user. The patient device can define, via the PHR wallet device application, an access level to be applied to the PHR. The patient device can initiate, via the PHR wallet device application, a transfer of the PHR from the PHR server to a health care provider. The health care provider can be permitted to access the portion of the PHR in accordance with the access level.

The concepts and technologies disclosed herein are directed to secure user-controlled personal health records (“PHRs”). According to one aspect disclosed herein, a patient device can launch a PHR wallet device application. The patient device can connect, via the PHR wallet device application, to a PHR server that stores PHR associated with a user. The patient device can define, via the PHR wallet device application, an access level to be applied to the PHR. The patient device can initiate, via the PHR wallet device application, a transfer of the PHR from the PHR server to a health care provider. The health care provider can be permitted to access the portion of the PHR in accordance with the access level.

A mobile device can be used for detecting and communicating to a user at a location, sunlight exposure in relation to the user at the location. Sunlight intensity data at a location of a mobile device is determined, in response to receiving at the computer, GPS (Global Positioning System) data for the mobile device. The sunlight intensity data and the GPS data is analyzed to generate an estimate of sunlight exposure for a user using the mobile device at the location. A level of sunlight exposure for the user is determined, based on the estimate of sunlight exposure for the user, and using the mobile device, the level of sunlight exposure to the user is communicated to the user.

Dispensing devices and systems for oral transmucosal administration of small volume drug dosage forms to the oral mucosa are provided. The dispensing device may be a single dose applicator (SDA), or an electromechanical device comprising a means for patient identification such as a wrist worn RFID tag and annular bidirectional antenna together with a lock-out feature.

Dispensing devices and systems for oral transmucosal administration of small volume drug dosage forms to the oral mucosa are provided. The dispensing device may be a single dose applicator (SDA), or an electromechanical device comprising a means for patient identification such as a wrist worn RFID tag and annular bidirectional antenna together with a lock-out feature.

Methods, systems, and computer-readable media are provided for routing radio-frequency identification (RFID) location data from an RFID tag reader to a record-keeping unit. A first tagging entry is received from a first record-keeping unit. The information associated with the first tagging entry is stored in a data store. A first set of location data is received, indicating that the RFID tag of the first item has been read by an RFID tag reader. It is algorithmically determined that the received location data corresponds to the first tagging entry received from the first record-keeping unit. The first set of location data is communicated to the first record-keeping unit.

Methods, systems, and computer-readable media are provided for routing radio-frequency identification (RFID) location data from an RFID tag reader to a record-keeping unit. A first tagging entry is received from a first record-keeping unit. The information associated with the first tagging entry is stored in a data store. A first set of location data is received, indicating that the RFID tag of the first item has been read by an RFID tag reader. It is algorithmically determined that the received location data corresponds to the first tagging entry received from the first record-keeping unit. The first set of location data is communicated to the first record-keeping unit.

Embodiments of the present invention provide systems, apparatus, and methods for a medical device communication bridge. A medical device communication bridge can include a processor coupled to a memory, the memory operative to store a plurality of software modules including instructions executable on the processor; a first interface for coupling an output port of an existing government authority registered and approved medical device to the processor to enable the processor to receive measurement data from the medical device; a second interface for coupling a patient identification system to the processor to receive patient identification information associated with the measurement data; and a communications transceiver coupled to the processor and operable to transmit output information to a hospital network, the output information determined by the processor executing one or more of the software modules based on the measurement data and the patient identification information. Numerous additional aspects are disclosed.

A health managing device includes a storage, at least one processor, a display screen, a display module, and a detection module. The display module and the detection module are stored in the storage. The display module is configured to provide an operating interface. The operating interface is displayed on the display screen. The operating interface comprises a plurality of function options. The detection module is configured to determine which function option is selected by a user. The detection module is further configured to trigger the function corresponding to the selected function option. A health managing method is also provided.

Described herein are technologies related to an implementation of a geolocation medical care management system that receives the physical locations of one or more patients from one or more communication devices, accesses personal medical data related to each of the patients and correlates the personal medical data to physical location of each of the patients. Depending on the where or location of a patient is in the process, particular care or service is provided to the patient.