Abstract: A method and system for a mini-screen dashboard is described with reference to healthcare workflow processes where multiple healthcare providers work together to manage their patients. The status criteria for patients is collected in one or more healthcare workflow databases accessible by the clinicians according to their various roles and functions using corresponding workflow applications. A central computer determines the number of patients that correspond with various status criteria of the patients that are already being monitored by the clinicians and the mini-screen unobtrusively displays the number patients that meet the status criteria in a series of indicator boxes that remain in the foreground of the clinicians' respective computer screens. The mini-screen dashboard is semi-transparent, becoming opaque when a box is selected and displaying the heading name of the status criteria corresponding with the selected box and also displaying the names of the patients satisfying the status criteria.

Abstract: An information storage device may be semi-permanently attached to a wearer. The device can include an outer casing configured to be compatible with long term contact with a human body. A data storage component may store information of the wearer and a transceiver may wirelessly communicate information from the data storage component. The stored information can be, for example, the complete medical history of the wearer, “emergency” medical information, prescriptions, medical warnings (e.g., past history of coronary problems), financial information, social security numbers, or other useful information.

Abstract: A method and system for extracting coronary vessels fluoroscopic image sequences using coronary digital subtraction angiography (DSA) are disclosed. A set of mask images of a coronary region is received, and a sequence of contrast images for the coronary region is received. For each contrast image, a motion estimate is calculated between each of the mask images and a background region of the contrast image and a covariance is calculated for each motion estimate. Multiple background layer predictions are generated by generating a background layer prediction for each mask image based on the calculated motion estimate and covariance. The multiple background layer estimates are combined using statistical fusion to generate a final estimated background layer. The final estimated background layer is subtracted from the contrast image to extract a coronary vessel layer for the contrast image.

Abstract: A system for controlling release of an automatic parking brake device onboard an automobile, that includes a transmission mechanism transmitting an instruction several times for releasing the parking brake device, and an interface provided between the transmissions of the release instruction and for transmitting a release instruction of the parking brake device.

Abstract: An objective is to provide a method and an apparatus for accurately extracting a region of an object particle from a urine particle image obtained by taking an image of urine particles in a urine specimen having varying properties. First, a first object region is extracted using one or more of an R image, a G image, and a B image of a urine particle image taken by an image input optical system configured to input particle images. Then, a density distribution and a size of the first object region of one or more of the R image, the G image, and the B image are calculated. Based on these feature parameters, the first object region is classified into a predetermined number of groups. A second object region is extracted from a local region including the first object region, by using one or more of the R image, the G image, and the B image, depending on each of the groups.

Abstract: Devices, systems, methods, and software for providing remote medical diagnosis and therapy to a subject comprising: a module for conducting telecommunications with a telemedicalist; a module for applying a diagnostic or a therapeutic analysis; an apparatus for dispensing one or more medical items from an inventory of medical items, the inventory of medical items risk profiled to a subject, a population, a venue, or a situation; and optionally, a biosensor apparatus.

Abstract: A tele-health services cabin includes a plurality of vital signs monitoring devices, a cabin management unit, and videoconferencing hardware via which a remote practitioner in a remote medical call center videoconferences with a patient in the cabin to diagnose symptoms of the patient. The cabin management unit includes a processor that controls the cabin, a data input at which patient data is provided from the vital signs monitoring devices, and a transmitter connectable to a communication link for bi-directional communication between the cabin management unit and the medical call center, where the transmitter transmits the patient data to the medical call center. The tele-health services cabin may include a patient chair including a motorized seat back and at least one sensor encapsulated in the seat back. The tele-health services cabin may include a hands-free medical device station. The tele-health services cabin may include an automatic cleaning system.

Abstract: Devices, systems, methods, and software for providing remote medical diagnosis and therapy to a subject comprising: a module for conducting telecommunications with a telemedicalist; a module for applying a diagnostic or a therapeutic analysis; an apparatus for dispensing one or more medical items from an inventory of medical items, the inventory of medical items risk profiled to a subject, a population, a venue, or a situation; and optionally, a biosensor apparatus.

Abstract: Methods, computer systems, and computer readable media for interfacing a medical device with an electronic medical record are provided. An image of an output of the medical device is received from a camera associated with the medical device. The image is analyzed to generate a result. The result is stored in the electronic medical record.

Abstract: An imaging and recordation system is provided. The system includes a high-power, focusing antenna for illuminating biological tissue. The system further includes a power source for powering the antenna. The system further includes a data acquisition module, for recording the dielectric properties of tissues illuminated by the high-power, focusing antenna. The system illuminates the tissues using ultrashort electrical pulses.

Abstract: Method of fluorescence imaging including: illuminating a sample to excite its fluorescence and acquiring an image thereof; based on fluorescence spectral and spatial information from the sample's fluorescence image, segmenting the image into regions of similar spectral properties; for each image segment, exciting the fluorescence of the corresponding sample region, and detecting the corresponding fluorescence; based on modelling, determining expected fluorescence parameters from the fluorescence signals detected for each region; scanning the sample and determining final fluorescence parameters based on said expected fluorescence parameters.

Abstract: A method is disclosed for processing measurement data from perfusion computed tomography, in which both perfusion parameters, in order to calculate which arterial and venous TACs are generated, and dynamic CTA images are generated from the measurement data. In at least one embodiment of the proposed method, averaging is performed over the dynamic CTA images from a plurality of temporally successive time phases in order to obtain averaged CTA images, wherein the time phases over which averaging is performed are determined from the arterial or venous TAC(s). In some cases, the method can dispense with an additional static CTA and so the amount of the injected contrast agent and the radiation dose can be reduced.

Abstract: A computer implemented method (350) for determining a centerline of a three-dimensional tubular structure is described. The method includes providing an edge-detected data set of voxels that characterize a boundary of the tubular structure according to a three-dimensional voxel data set for the tubular structure (360). A gradient field of a distance transformation is computed for the edge-detected dataset (380). A voxel data set corresponding to a centerline of the tubular structure is computed according to derivative of gradient field (390).