Abstract: A structural frame and methods of use thereof are disclosed that assists a patient that has limited ambulation. A structural frame is disclosed that includes a linear rod having a first end and a second end; two or more expandable telescoping sections disposed between the first end and the second end of the linear rod wherein the two or more expandable telescoping sections are operable to expand the linear rod bidirectionally at the first end and the second end; a force-loading mechanism engaging each of the two or more expandable telescoping sections operably connected to expand the telescoping linear rod.

Abstract: Embodiments disclosed herein relate to methods, devices, and computer systems thereof for automated data collection from a subject. In certain embodiments, one or more characteristics of a subject are sensed, and the subject is given a queue status indicator based on a comparison of the subject's one or more sensed characteristics with corresponding sensed characteristics from other subjects. In one embodiment, the subject is a healthcare worker and the system, methods, and devices are utilized to evaluate the overall health of the worker as part of the check-in process for work.

Abstract: Systems and methods for wearable injection guides are described, which include: acquiring one or more digital images of a body region of an individual with at least one image capture device; creating a digitally rendered model of a wearable injection guide from the one or more digital images of the body region of the individual; adding one or more digitally rendered fiducials indicative of at least one treatment parameter to the digitally rendered model of the wearable injection guide; and forming the wearable injection guide from the digitally rendered model of the wearable injection guide, the formed wearable injection guide including one or more fiducials corresponding to the one or more digitally rendered fiducials on the digitally rendered model of the wearable injection guide.

Abstract: Computer-based systems and computer-implemented methods are described for monitoring medication events for an individual. Computer-based systems include systems for monitoring medication events relating to an individual, including: circuitry for analyzing data for an identifier of a first medication event for an individual; circuitry for analyzing the data for at least one attribute of an individual; circuitry for analyzing the data for at least one attribute relating to a medication during the first medication event; circuitry for analyzing the data for at least one feature of visual information and at least one feature of non-visual information relating to the individual during the first medication event; circuitry for analyzing the received data for a time associated with the first medication event; circuitry for determining a compliance likelihood for the first medication event based on the analyzes of the received data; and circuitry for indicating the determined compliance likelihood.

Abstract: Systems and methods for wearable injection guides are described, which include: acquiring one or more digital images of a body region of an individual with at least one image capture device; creating a digitally rendered model of a wearable injection guide from the one or more digital images of the body region of the individual; adding one or more digitally rendered fiducials indicative of at least one treatment parameter to the digitally rendered model of the wearable injection guide; and forming the wearable injection guide from the digitally rendered model of the wearable injection guide, the formed wearable injection guide including one or more fiducials corresponding to the one or more digitally rendered fiducials on the digitally rendered model of the wearable injection guide.

Abstract: Computer-based systems and computer-implemented methods are described for monitoring medication events for an individual. Computer-based systems include systems for monitoring medication events relating to an individual, including: circuitry for analyzing data for an identifier of a first medication event for an individual; circuitry for analyzing the data for at least one attribute of an individual; circuitry for analyzing the data for at least one attribute relating to a medication during the first medication event; circuitry for analyzing the data for at least one feature of visual information and at least one feature of non-visual information relating to the individual during the first medication event; circuitry for analyzing the received data for a time associated with the first medication event; circuitry for determining a compliance likelihood for the first medication event based on the analyzes of the received data; and circuitry for indicating the determined compliance likelihood.

Abstract: Computer-based systems and computer-implemented methods are described for monitoring medication events for an individual. Computer-based systems include systems for monitoring medication events relating to an individual, including: circuitry for analyzing data for an identifier of a first medication event for an individual; circuitry for analyzing the data for at least one attribute of an individual; circuitry for analyzing the data for at least one attribute relating to a medication during the first medication event; circuitry for analyzing the data for at least one feature of visual information and at least one feature of non-visual information relating to the individual during the first medication event; circuitry for analyzing the received data for a time associated with the first medication event; circuitry for determining a compliance likelihood for the first medication event based on the analyses of the received data; and circuitry for indicating the determined compliance likelihood.

Abstract: Systems and methods for wearable injection guides are described, which include: acquiring one or more digital images of a body region of an individual with at least one image capture device; creating a digitally rendered model of a wearable injection guide from the one or more digital images of the body region of the individual; adding one or more digitally rendered fiducials indicative of at least one treatment parameter to the digitally rendered model of the wearable injection guide; and forming the wearable injection guide from the digitally rendered model of the wearable injection guide, the formed wearable injection guide including one or more fiducials corresponding to the one or more digitally rendered fiducials on the digitally rendered model of the wearable injection guide.

Abstract: Embodiments disclosed herein relate to methods, devices, and computer systems thereof for automated data collection from a subject. In certain embodiments, one or more characteristics of a subject are sensed, and the subject is given a queue status indicator based on a comparison of the subject's one or more sensed characteristics with corresponding sensed characteristics from other subjects. In one embodiment, the subject is a healthcare worker and the system, methods, and devices are utilized to evaluate the overall health of the worker as part of the check-in process for work.

Abstract: A gastrointestinal device and methods of manufacturing said gastrointestinal device are described and include a flexible tubular structure including an inner surface and an outer surface, a plurality of at least one type of commensal microbe associated with at least a portion of at least one of the inner surface and the outer surface, and a proximal end and a distal end, the proximal end and the distal end forming a flow conduit through the flexible tubular structure; and at least one anchor structure including one or more gastric wall-engaging components configured to engage a wall of the gastrointestinal tract of the subject.

Abstract: A gastrointestinal device and methods of manufacturing said gastrointestinal device are described and include a flexible tubular structure including a layered wall, the flexible tubular structure including at least one microbe-promoting agent encased in the layered wall, the microbe-promoting agent configured to promote at least one of attraction, colonization, and growth of at least one type of commensal microbe, and a proximal end and a distal end, the proximal end and the distal end forming a flow conduit through the flexible tubular structure; and at least one anchor structure including one or more gastric wall-engaging components configured to engage a wall of the gastrointestinal tract of the subject.

Abstract: A gastrointestinal device and methods of manufacturing said gastrointestinal device are described and include a flexible tubular structure including a layered wall, the flexible tubular structure including a plurality of at least one type of commensal microbe encased in the layered wall, the layered wall configured to allow an interaction between the plurality of the at least one type of commensal microbe and an ingested product within the flexible tubular structure, and a proximal end and a distal end, the proximal end and the distal end forming a flow conduit through the flexible tubular structure; and at least one anchor structure including one or more gastric wall-engaging components configured to engage a wall of the gastrointestinal tract of the subject.

Abstract: A gastrointestinal device and methods of manufacturing said gastrointestinal device are described and include a flexible tubular structure including an inner surface and an outer surface, at least one microbe-promoting agent associated with at least one of the inner surface and the outer surface, the at least one microbe-promoting agent configured to promote attraction, colonization, and growth of at least one type of commensal microbe, and a proximal end and a distal end, the proximal end and the distal end forming a flow conduit through the flexible tubular structure; and at least one anchor structure including one or more gastric wall-engaging components configured to engage a wall of the gastrointestinal tract of the subject.

Abstract: An adjunct for a gastrointestinal device and a system including said adjunct are described herein and include a substrate configured to attach to a gastrointestinal device, the substrate including a first surface and a second surface, and at least one microbe-promoting agent associated with at least one of the first surface and the second surface of the substrate, the at least one microbe-promoting agent configured to promote at least one of attraction, colonization, and growth of at least one type of commensal microbe.

Abstract: An adjunct for a gastrointestinal device and a system including said adjunct are described herein and include a substrate configured to attach to a gastrointestinal device, the substrate including a first surface and a second surface, and a plurality of at least one type of commensal microbe associated with at least a portion of at least one of the first surface and the second surface of the substrate.

Abstract: Certain embodiments described herein relate to expandable, reversible implants. In an embodiment, the implants are controllable by way of at least one biochemical, chemical, or physical means. In an embodiment, the implants are programmable and/or pre-programmed for a particular level of expansion and/or contraction. In an embodiment, the implants are controlled remotely from a control source that is external to the subject's body.

Abstract: Certain embodiments described herein relate to expandable, reversible implants. In an embodiment, the implants are controllable by way of at least one biochemical, chemical, or physical means. In an embodiment, the implants are programmable and/or pre-programmed for a particular level of expansion and/or contraction. In an embodiment, the implants are controlled remotely from a control source that is external to the subject's body.

Abstract: Certain embodiments described herein relate to expandable, reversible implants. In an embodiment, the implants are controllable by way of at least one biochemical, chemical, or physical means. In an embodiment, the implants are programmable and/or pre-programmed for a particular level of expansion and/or contraction. In an embodiment, the implants are controlled remotely from a control source that is external to the subject's body.

Abstract: Wearable injection guides and manufacture and use thereof are described, which include: a rigid needle-penetrable material having an inner surface and an outer surface, the inner surface having form-fitting contours substantially conforming to a topography of a body region of an individual and the outer surface including one or more fiducials indication of at least one treatment parameter.

Abstract: Wearable injection guides and manufacture and use thereof are described, which include: a rigid material formed to substantially conform in shape to a topography of a body region of an individual, the rigid material substantially impenetrable to an injection needle, and the rigid material including one or more injection needle access regions arranged in a treatment pattern.