Abstract: A system for fragmenting material includes an energy source, an acoustic transmitter, and a controller. The acoustic transmitter is coupled to the energy source and includes a unit acoustic source configured to emit an acoustic wave through a volume of ground material. The controller is coupled to the acoustic transmitter and is configured to engage the unit acoustic source such that the acoustic wave fractures the volume of ground material at a target location.

Abstract: Food additives may be actively released to deliver aromatic compounds to consumers during food or drink consumption. The food additives may be contained within an encapsulation layer. The encapsulation layer may be configured to release the food additives in response to being exposed to energy provided by an activation source proximate to the food additives. The activation source may be incorporated into, or connected with, an eating utensil or an oral implant. The activation source can be manually controlled by a consumer, can be controlled based on conditions near the food additives, or can be programmed with a release schedule that defines how and when food additives are to be released.

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: Devices, systems, and methods for assessing microbiota of skin are described which include: a skin-covering material with an inner surface conforming in shape to a topography of a skin surface and including a plurality of specific microbe-binding elements; an image capture device to capture an image of the inner surface of the skin-covering material and to transform the image into a digital output including information associated with at least one property and a spatial distribution of at least one type of microbe bound to the specific microbe-binding elements; and a computing device including circuitry configured to receive the digital output from the image-capture device, compare the at least one property of the at least one type of microbe bound to the specific microbe-binding elements with a database of reference microbe properties, and generate a digital profile including the at least one property and the spatial distribution of the at least one type of microbe bound to the specific microbe-binding eleme

Abstract: Apparatus, system, and method are disclosed herein for controlling movement of an orthopedic joint prosthesis in a mammalian subject. The apparatus, system, or method includes an orthopedic brace configured to control movement of an orthopedic joint prosthesis. The apparatus, system, or method includes one or more sensors and one or more controllers in communication with the one or more sensors. The one or more sensors are configured to be remote from the orthopedic joint prosthesis, wherein the one or more sensors in communication with the one or more controllers are configured to detect and control one or more alignment orientations of the orthopedic joint prosthesis.

Abstract: Devices and methods for competency training and use authorization for dispensing an agent are described, which include: an agent-dispensing device including a reservoir configured to store agents, a controllable agent-dispensing mechanism in communication with the reservoir, a locking mechanism coupled to the controllable agent-dispensing mechanism, a microprocessor including circuitry, use sensors to monitor at least one operational step for use of the agent-dispensing device, training circuitry configured to train the user and to assign a value for each of the monitored at least one operational step for use of the agent-dispensing device, verification circuitry configured to determine if the assigned value for each of the monitored at least one operational step for use of the agent-dispensing device meets or exceeds a pre-defined performance threshold, and activation circuitry responsive to the verification circuitry and configured to deactivate the locking mechanism to allow dispensing of agents if the ass

Abstract: Devices, systems, and methods for assessing microbiota of skin are described which include: a skin-covering material with an inner surface conforming in shape to a topography of a skin surface and including a microbe-capture region; an image-capture device to capture a least one image of the inner surface of the skin-covering material and to transform the captured at least one image into a digital output including information associated with at least one property and a spatial distribution of at least one type of microbe bound to the microbe-capture region; and a computing device including circuitry configured to receive the digital output from the image-capture device, compare the at least one property of the at least one type of microbe with a database of reference microbe properties, and generate a digital profile including the at least one property and the spatial distribution of the at least one type of microbe bound to the microbe-capture region of the skin-covering material.

Abstract: The present disclosure provides systems and methods for actively releasing food additives to deliver aromatic compounds to consumers during food or drink consumption. The food additives may be contained within an encapsulation layer. The encapsulation layer may be configured to release the food additives in response to being exposed to energy provided by an activation source proximate to the food additives. The activation source may be incorporated into, or connected with, an eating utensil or an oral implant. The activation source can be manually controlled by a consumer, can be controlled based on conditions near the food additives, or can be programmed with a release schedule that defines how and when food additives are to be released.

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 needle insertion system is disclosed that includes a moveable hollow needle having a distal tip configured to be transdermally inserted into a vertebrate subject at an insertion-target region; at least one sensor operable to detect skin structure at a position in proximity to the distal tip of the moveable needle in the insertion-target region; and control circuitry operably coupled to the at least one sensor and configured to receive information therefrom indicating the skin structure at the insertion-target region in proximity to the distal tip, and the control circuitry configured to output moveable needle targeting instructions to control movement of the moveable needle into the skin in response to one or more signals from the at least one sensor detecting the skin structure in proximity to the distal tip. A method for inserting a movable needle of a needle insertion system into a vertebrate subject is disclosed.

Abstract: The present disclosure provides various systems and methods for focusing electromagnetic radiation (EMR) within a diffusion medium, such as a turbid medium. A diffusion medium is irradiated with EMR. The EMR may be modulated by an acoustical wave focused on a focus volume within the diffusion medium. The EMR may be modulated by a beat frequency or other function of multiple focused acoustical waves. The EMR may be modulated at a harmonic of a fundamental frequency of one or more acoustical waves. A filter may filter the emerging EMR to remove all but specifically modulated EMR scattered from the focus volume. The modulated EMR may be focused and/or used for various purposes, including imaging. In some embodiments, the modulated EMR may be reflected and/or amplified by a phase conjugating mirror. Furthermore, in some embodiments, acoustical phase conjugation may be used to focus an acoustical wave on a focus volume.

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: Systems and devices for sampling and profiling microbiota of skin are described which include a replaceable microbe sampling unit including at least one rotatable component, an elongated flexible strip, and a location information storage component, the elongated flexible strip including a microbe-capture region configured to capture at least one type of microbe from one or more regions of a skin surface of an individual, and the location information storage component configured to store information associated with the location of said one or more regions of the skin surface of the individual.

Abstract: A system for capturing an image of a user includes a mobile device for requesting capture of the image of the user and a camera. The mobile device further includes a communications device, a user input device, and a processing circuit configured to broadcast a request formatted to cause one or more cameras to capture an image using the communications device and in response to an input received via the user input device. The camera is configured to receive a broadcasted request, determine the location of the user, and capture an image of the user.

Abstract: A system for fragmenting material includes an energy source, an acoustic transmitter, and a controller. The acoustic transmitter is coupled to the energy source and includes a unit acoustic source configured to emit an acoustic wave through a volume of ground material. The controller is coupled to the acoustic transmitter and is configured to engage the unit acoustic source such that the acoustic wave fractures the volume of ground material at a target location.

Abstract: Devices and methods for profiling microbiota of skin are described which include a microbe profiling device including a device head and a hand-held housing, the device head including an epidermis-engaging component and an access window and configured to dislodge microbes from a skin surface, and the hand-held housing defining an opening aligned with the access window, the hand-held housing including a motor operably coupled to a motivatable component, a substrate disposed in relation to the motivatable component and including signal-generating complexes, a location-capture component to detect a location of one or more regions of the skin surface as the epidermis-engaging component contacts said one or more regions, at least one sensor component to detect one or more signals emitted from the signal-generating complexes, and a computing component including circuitry to associate the location of said one or more regions of the skin surface and the detected one or more signals.

Abstract: Systems and devices for sampling and profiling microbiota of skin are described which include a replaceable microbe sampling unit including at least one rotatable component, an elongated flexible strip, and a location information storage component, the elongated flexible strip including a microbe-capture region configured to capture at least one type of microbe from one or more regions of a skin surface of an individual, and the location information storage component configured to store information associated with the location of said one or more regions of the skin surface of the individual.

Abstract: Devices and systems for sampling and profiling microbiota of skin are described which include a replaceable microbe sampling unit including a substrate and a location information storage component, the substrate including a microbe-capture region configured to capture at least one type of microbe from one or more regions of a skin surface of an individual, and the location information storage component configured to store information associated with the location of said one or more regions of the skin surface of the individual.