Technologies are provided for remote neuropsychological assessments and other types of remote assessments (medical or otherwise).

A system is provided for integrating at least one portable computing device with a resuscitative medical device such as a defibrillator. The system may include a carrying case coupled to the resuscitative medical device. The carrying case may include a storage space for the at least one portable computing device and a wireless charging system for charging the at least one portable computing device. The system may be configured to enable secure data transfer between each of the devices, including data communication and data storage. A processor of the resuscitative medical device may be configured to activate the wireless charging system and charge the at least one portable computing device under certain circumstances. The processor may further be configured to prioritize or optimize charging and data transfer between the resuscitative medical device and each of multiple portable computing devices.

The present invention relates generally to a device and a method that maintains a patient's body temperature during surgical exposure and, more specifically, to a surgical, insulative cap that forms a viewing window and is used in conjunction with a medical temperature trend indicator. The cap is contoured to the patient's head. The instant abstract is neither intended to define the invention disclosed in this specification nor intended to limit the scope of the invention in any way.

A display method applied to a monitor is disclosed. The method includes acquiring a first partition configuration on a display interface of a touch display screen of the monitor; displaying at least one physiological data in the first physiological data display area; displaying data other than the at least one physiological data in the first function information display area; detecting a touch screen operation received by the touch display screen; acquiring a second partition configuration of the display interface if a first touch screen operation that meets a preset re-partitioning rule is detected, the second partition configuration including a second physiological data display area, a second function information display area, and a third function information display area; partially or fully displaying at least one physiological data in the second physiological data display area; and displaying data other than the at least one physiological data in the second function information display area.

Improved urine output collection apparatus and monitoring device features are provided. The disposable urine collection apparatus includes a collection reservoir and a diverter for controlling the flow of urine to a first passageway of the diverter in a first position and to a second passageway of the diverter in a second position, wherein the first passageway is fluidly interconnected to the collection reservoir. The disposable urine collection apparatus may include a cartridge having an internal chamber and inlet and outlet members interconnected to the cartridge, wherein the inlet member is selectively, fluidly interconnectable to the second passageway of the diverter, and wherein the outlet member is selectively, fluidly interconnectable to the collection reservoir. The monitoring device is interconnectable with the cartridge and operable to monitor a volume and/or level of urine collected within the cartridge. The cartridge may include a front portion and a reduced-width projecting portion extending rearwardly from the front portion. The projecting portion of the cartridge may be received within a recessed portion of the monitoring device. The monitoring device may include at least light source (e.g. a laser diode) for emitting a fan beam light signal into the projecting portion and a light detector array (e.g. a charge coupled device) for detection of the fan beam light signal and output of signals employable to determine a volume and/or level of collected urine.

A method can include capturing an image, images, or a video of a user with the image, images or video capturing system of an exercise device and detecting a health or disease indicator from the images or video. An apparatus includes a camera, a processor, and computer readable medium containing programming instructions that, when executed, will cause the processor to use a machine learning model and one or more images or videos of a subject captured by the camera to detect a health or disease indicator.

A monitor configuration system which communicates with a physiological sensor, the monitor configuration system including one or more processors and an instrument manager module running on the one or more processors. At least one of the one or more processors communicates with the sensor and calculates at least one physiological parameters responsive to the sensor. The instrument manager controls the calculation, display and/or alarms based upon the physiological parameters. A configuration indicator identifies the configuration profile. In one aspect of the invention, the physiological sensor is a optical sensor that includes at least one light emitting diode and at least one detector.

A system including a power source, one or more stimulating devices for stimulating the visual cortex of a user to present a perceived virtual image responsive to the stimulating, one or more sensing devices for sensing electrical signals in the motor and/or pre-motor cortex of the user and a processor/controller connected to the stimulating and sensing devices and programmed to sense signals from the motor and/or pre-motor cortex of the user. The sensed signals result from the user performing a movement and/or intending to perform a movement and/or imagining the performing of a movement and are used to interact with the presented virtual image. The processor/controller processes the sensed signals to obtain computed data indicative of a user's interaction with the virtual image, and performs a general computing task responsive to the computed data.

The capillary refill time (CRT) of a patient is an important feature in the determination of cardiovascular system health. Quick re-perfusion of the microcirculation (namely, the capillaries) is a good indication that the cardiovascular system is able to efficiently distribute blood throughout the body. Current systems use unreliable or subjective methods to test the CRT. Additionally, the calculation of CRT is not generally used in the adult medical space as it is more commonly used in pediatrics. The present application describes a system and method for calculating a patient's CRT using a mobile device with an integrated camera and light source, or an optical head-mounted display using a light source in combination with ambient light to calculate the CRT. Once a patient's CRT is calculated, an integrated application classifies the data and sends it to the treating clinician for review.

A medical system is disclosed. The medical system can include a patient monitoring device, a patient information system, and a mobile application. The patient monitoring device can be coupled to a patient to monitor one or more physiological parameters. The patient information system can allow the patient to communicate with a clinician. The patient information system can also provide information regarding schedules, medications, and procedures to the patient. The mobile application can be communicatively coupled with the patient monitoring device and the patient information system. The mobile application can allow a clinician to receive, view, and send information to or from the patient monitoring device and the patient information system.