Embodiments are generally directed to systems and apparatuses for tracking usage of an item. For example, an apparatus may be provided for tracking use of a packetized item. The apparatus may include a microprocessor, a power source, and a structural layer to which the microprocessor and power source are coupled. The structural layer may include a container that is configured to hold various items. The container may also include an opening that allows access to the items. The apparatus may further include a cover layer that is configured to cover the opening of the container. The cover layer may include at least one bendable sensor placed over the opening of the container. The microprocessor may be configured to determine, using detected movements in the bendable sensor, whether the container has been opened.

Systems and methods for monitoring patients with multiple chronic diseases are described. A system may include a health status monitor that receives diagnostic data including physiological signals sensed from a patient. The system may produce at least a first risk indication of the patient developing a first disease and a second risk indication of the patient developing a different second disease. The system may detect the first and second diseases from the physiological signals, and generate a composite health status indicator using the detections of the first and second diseases and the first and second risk indications. An alert of worsening health status may be generated if the composite detection score exceeds an alert threshold.

The technology described herein is directed to methods of treating and diagnosing bronchial premalignant lesions, e.g. by determining the lesion subtype using one or more biomarkers described herein.

Systems and methods for intelligently routing a member of an organization to a single point-of-contact within an optimized, secure network to address all the member's healthcare needs are described. The disclosed intelligent routing configurations transform and process, in real-time, vast amounts of member data to generate aggregated diagnoses and a member score specific to each member's household. The scores, among other things, are used to determine an identification of special needs and an appropriate advocate within the organization to route the member, and its account file containing real-time member and household level data.

Systems and methods for intelligently routing a member of an organization to a single point-of-contact within an optimized, secure network to address all the member's healthcare needs are described. The disclosed intelligent routing configurations transform and process, in real-time, vast amounts of member data to generate aggregated diagnoses and a member score specific to each member's household. The scores, among other things, are used to determine an identification of special needs and an appropriate advocate within the organization to route the member, and its account file containing real-time member and household level data.

Methods and systems are provided for detecting a mental health condition. Structured and unstructured information is analyzed using natural language processing to extract information including clinical data values and medical concepts pertaining to a user. Reference medical information is evaluated using natural language processing to correlate medical data with mental health conditions. A classification for a mental health condition of the user is determined using a machine learning model and based on the extracted information and correlations, wherein the extracted information includes blood analysis for the user. The user is assigned to a segment of users based on the extracted information. A treatment for the mental health condition of the user is indicated based on the classification and the assigned segment of users.

A contents passing device according to the present invention includes a passing operation part configured to guide movement of contents, a passing movement part rotatably disposed in the passing operation part and configured to move so that the contents are passed, and a sensing part disposed in the passing operation part and configured to sense contents discharged due to free rotation of one end of the passing movement part, wherein the sensing part detects information on the sensed contents.

A medication inventory system may include a medication tray that includes partitions defining compartments. The medication tray has a tray identifier associated therewith, and each compartment is for storing a respective medication having a radio frequency identification (RFID) tag associated therewith. The system may include an RFID tag reader, and a processor and an associated memory configured to maintain in the memory a desired respective medication within each compartment based upon the tray identifier, and cooperate with the RFID tag reader to determine the respective medication within each compartment based upon the respective RFID tag. The processor and associated memory may also be configured to determine a discrepancy between the determined medication within each compartment and the desired respective medication within each compartment, and when so generate a display notification that includes a visual indicator corresponding to each compartment determined to have the discrepancy.

A medication inventory system may include a medication tray that includes partitions defining compartments. The medication tray has a tray identifier associated therewith, and each compartment is for storing a respective medication having a radio frequency identification (RFID) tag associated therewith. The system may include an RFID tag reader, and a processor and an associated memory configured to maintain in the memory a desired respective medication within each compartment based upon the tray identifier, and cooperate with the RFID tag reader to determine the respective medication within each compartment based upon the respective RFID tag. The processor and associated memory may also be configured to determine a discrepancy between the determined medication within each compartment and the desired respective medication within each compartment, and when so generate a display notification that includes a visual indicator corresponding to each compartment determined to have the discrepancy.

The present invention relates to a system and method for controlling transdermal and automatic release of a sedative during imaging of a subject. A sedation level of a patient is detected during an imaging procedure. An amount of sedative to be applied to the patient to sustain a certain level of sedation is calculated. Further, a time for releasing the amount of the sedative is calculated. The calculated amount of the sedative is released at the calculated time transdermally to the patient.