Abstract: A computer-implemented method can include acquiring data from at least one data source, the acquired data including health data for a patient. The acquired data can be transformed into episode model data according to a context-specific data model and the episode model data can be stored in a database. The method also includes generating at least one inverted index document for at least a portion of an episode for the patient based on the episode model data.

Abstract: The described invention provides a system and method for clinical outcome tracking and analysis. The clinical outcome tracking and analysis comprises sorting, outcome tracking, quality of life metrics, toxicity to therapy and cost of care. The system and method includes receiving one or more parameters. Exemplary parameters for sorting include sex, age, ethnicity, comorbidities, tobacco use, source of insurance, medical record number, primary care physician, referring physician, hospital, approved service vendors, disease-specific clinical molecular phenotype, therapy intent, stage of therapy, biomarkers, and cost of care. A plurality of patient medical records are sorted, by a clinical outcome tracking and analysis module executed by a processor, to provide a set of patient medical records satisfying the one or more parameters.

Abstract: A method and apparatus for providing mapping data in a network are disclosed. For example, the method receives coordinate data from a customer mobile endpoint device, and processes the coordinate data against at least one existing map. The method then identifies a route associated with the coordinate data as a candidate new route if the route is not previously known on the at least one existing map.

Abstract: A method of operation of a navigation system includes: detecting a location reading; selecting a route having a current edge with an endpoint and a shape point; predicting a navigation instruction based on a calculation with the location reading, the shape point, and a time delay for the calculation; and displaying the navigation instruction on a device.

Abstract: A computationally implemented system and method that is designed to, but is not limited to: electronically receiving directive information including verification information to electronically verify issuance of the directive information by at least one authorized entity, living being identification associated with a particular individual living being, and reporting directions for electronically recording occurrence information to indicate at least one occurrence of at least partial preparation of a particular ingestible product designated by the reporting directions to be associated with an electronically inputted identification of the particular individual living being as verified using the living being identification electronically received with the directive information; and electronically transmitting the occurrence information to an electronic receiving device to be accessed by at least one recipient identified by the reporting directions as authorized to access the occurrence information subsequent to v

Abstract: A method and system for analyzing and retrieving breast tissue abnormality tracking data, providing a tool for a radiologist that includes a report summarizing the statistical frequency of diagnosed patients, both locally and nationally, with breast tissue region-of-interest classifications similar to the breast tissue images taken of the anatomy of an individual patient. In one embodiment, a computer aided diagnostic program can be tested or verified against the breast tissue images and the region-of-interest classifications that have been validated by definitive patient diagnosis. Another embodiment allows the efficient collection of all of the breast tissue abnormalities for a given medical facility in order to provide trending data or radiologist performance analysis. In yet another embodiment, the region-of-interest abnormalities in a single location in a patient's tissue are correlated across a variety of imaging modalities including X-rays, mammogram, CT, ultrasound, MRI, or other imaging technologies.

Abstract: A system and method for analyzing and retrieving images of breast tissue abnormalities obtained from multiple sources. Providing a tool for a radiologist that includes a convenient region-of-interest association of mammogram, or other anatomical images, of an individual patient. One embodiment provides an efficient collection of all of the mammogram abnormalities for a patient. In yet another embodiment, the region-of-interest abnormalities in a single location in a patient's tissue are correlated across a variety of imaging modalities including X-rays, mammogram, CT, ultrasound, MRI, or other imaging technologies.

Abstract: The disclosure herein provides methods, systems, and devices for managing, transferring, modifying, converting and/or tracking medical files and/or medical system messages. In certain embodiments, the foregoing may generally be based on requesting medical files at a first medical facility, identifying the requested medical files at a second medical facility, initiating a secure network connection between the first and second medical facility, modifying a header portion of the medical files based on patient identification information created by the first medical facility, and other processing steps.

Abstract: A system for managing a master patient index is described. The master patient index database is constructed using inverted indices. The inverted index formulation enables faster, more complete and more flexible duplicate detection as compared to traditional master patient database management techniques. A master patient index management system including a remote user interface configured to leverage the inverted index formulation is described. The user interface includes features for managing records in an MPI database including identifying, efficiently comparing, updating and merging duplicate records across a heterogeneous healthcare organization.

Abstract: A device receives global navigation satellite system coordinates associated with a mobile user device, and determines a direction of travel of the mobile user device based on the global navigation satellite system coordinates. The device creates a user-defined path based on a user-defined starting point, a user-defined destination point, and one or more user-defined intermediate points received from the mobile user device, and receives, from the mobile user device, a search request for points of interest in one of the direction of travel or along the user-defined path. The device further determines, based on the search request, one or more points of interest in the direction of travel or along the user-defined path, and provides, to the mobile user device, the determined one or more points of interest in the direction of travel or along the user-defined path.

Abstract: In various embodiments, systems and methods can provide accurate measurements of blood flow dynamics in a subject. Projection data acquired during a computed tomography (CT) scan of the subject can be used to determine information representing inflow of a contrast material. Accordingly, a measurement of flow velocity, in addition to other aspects of flow, may be obtained from the projection data.

Abstract: A computationally implemented system and method that is designed to, but is not limited to: electronically using the electronically received operation information with the updated allocation plan to electronically direct control of the at least partial preparation of at least one of the instances of the ingestible product of the succession designated to be ingested by the particular individual living being, the at least one of the instances of the ingestible product containing the quantity of the at least one substance according to the updated allocation plan. In addition to the foregoing, other method aspects are described in the claims, drawings, and text forming a part of the present disclosure.

Abstract: A method for displaying colonography images includes presenting a series of oblique images of the colon at sequential locations along the colon centerline. Each image is generally centered on the centerline, presents a field of view generally perpendicular to the centerline, and is oriented with the bottom of the colon down.

Abstract: A method for visualizing a region of interest within a viewport includes presenting tomographic image data as an image in a viewport using a set of global image processing operations, presenting a viewing window in the main viewport; and using a second, different set of image processing operations that is local to the viewing window, wherein the second, different set of image processing operations reduces image artifact with respect to a desired structure of interest in the viewing window.

Abstract: A method for registering a medical image with a model mapping a skeletal structure. The method comprises receiving a medical image depicting a plurality of bones, providing a statistical model mapping a reference skeletal structure having a plurality of reference anatomical elements, and registering medical image with the statistical model according to at least one constraint defined by the plurality of reference anatomical elements.

Abstract: A remote medical assessment and therapy management apparatus comprising a center user interface, a center computer coupleable with the center user interface. The center computer displays information via the center user interface for use in developing a therapeutic prescription and receives therapeutic control inputs from a user. A remote device includes a medical diagnostic instrument for acquiring biophysical data from a patient, a medical therapeutic instrument that provides a therapy to the patient, and a remote computer that receives diagnostic signals from the diagnostic instrument and transmits therapeutic control signals to the therapeutic instrument. A network interface is connected between the first center computer and the remote computer and transmits diagnostic signals from the remote computer to the center computer and control signals from the center computer to the therapeutic instrument via the remote computer.

Abstract: The present invention provides a medical diagnosis support device which enables a user to acquire the most appropriate information to support medical diagnosis without causing the user so much trouble.

Abstract: The present invention relates to minimally invasive X-ray guided interventions, in particular to an image processing and rendering system and a method for improving visibility and supporting automatic detection and tracking of interventional tools that are used in electrophysiological procedures. According to the invention, this is accomplished by calculating differences between 2D projected image data of a preoperatively acquired 3D voxel volume showing a specific anatomical region of interest or a pathological abnormality (e.g. an intracranial arterial stenosis, an aneurysm of a cerebral, pulmonary or coronary artery branch, a gastric carcinoma or sarcoma, etc.

Abstract: In accordance with the teachings described herein, systems and methods are provided for contouring a set of medical images. An example system may include an image database, an image deformation engine and a contour transformation engine. The image database may be used to store a set of medical images. The image deformation engine may be configured to receive a source image and a target image from the set of medical images in the image database, and further configured to use a deformation algorithm with the source image and the target image to generate deformation field data that is indicative of changes between one or more objects from the source image to the target image. The contour transformation engine may be configured to receive source contour data that identifies the one or more objects within the source image, and further configured to use the deformation field data and the source contour data to generate automatic target contour data that identifies the one or more objects within the target image.

Abstract: A healthcare mass customization infrastructure individualizes plan designs by incorporating demographics, income, drug history, medical history, lab values, and future genomic information for appropriate and affordable access to medications. The mass customization infrastructure results in quality outcomes for the patients, improved care and productivity for the providers, and lower medical costs for the payers.