Abstract: The invention relates to improved methods, devices, and kits for identifying and implementing an appropriate treatment regimen for subjects suffering from hypertension.

Abstract: Power sources that enable in-body devices, such as implantable and ingestible devices, are provided. Aspects of the in-body power sources of the invention include a solid support, a first high surface area electrode and a second electrode. Embodiments of the in-power sources are configured to emit a detectable signal upon contact with a target physiological site. Also provided are methods of making and using the power sources of the invention.

Abstract: The system of the present invention includes a conductive element, an electronic component, and a partial power source in the form of dissimilar materials. Upon contact with a conducting fluid, a voltage potential is created and the power source is completed, which activates the system. The electronic component controls the conductance between the dissimilar materials to produce a unique current signature. The system can also measure the conditions of the environment surrounding the system.

Abstract: The system of the present invention includes a conductive element, an electronic component, and a partial power source in the form of dissimilar materials. Upon contact with a conducting fluid, a voltage potential is created and the power source is completed, which activates the system. The electronic component controls the conductance between the dissimilar materials to produce a unique current signature. The system can also measure the conditions of the environment surrounding the system.

Abstract: Power sources that enable in-body devices, such as implantable and ingestible devices, are provided. Aspects of the in-body power sources of the invention include a solid support, a first high surface area electrode and a second electrode. Embodiments of the in-power sources are configured to emit a detectable signal upon contact with a target physiological site. Also provided are methods of making and using the power sources of the invention.

Abstract: The system of the present invention includes a conductive element, an electronic component, and a partial power source in the form of dissimilar materials. Upon contact with a conducting fluid, a voltage potential is created and the power source is completed, which activates the system. The electronic component controls the conductance between the dissimilar materials to produce a unique current signature. The system can also measure the conditions of the environment surrounding the system.

Abstract: Low profile antennas for ingestible devices, such as ingestible event markers, are provided. Aspects of the ingestible devices of the invention include low profile signal transmission antennas configured such that they are flexible or degrade after use, allowing the antenna and attached components to pass easily through the body. Embodiments of the low profile antennas are configured to emit a detectable signal upon contact with a target physiological site. Also provided are methods of making and using the devices of the invention.

Abstract: The present invention provides for safe and reliable electronic circuitry that can be employed in ingestible compositions. The ingestible circuitry of the invention includes a solid support; a conductive element; and an electronic component. Each of the support, conductive element and electronic component are fabricated from an ingestible material. The ingestible circuitry finds use in a variety of different applications, including as components of ingestible identifiers, such as may be found in ingestible event markers, e.g., pharma-informatics enabled pharmaceutical compositions.

Abstract: The present invention provides for safe and reliable electronic circuitry that can be employed in ingestible compositions. The ingestible circuitry of the invention includes a solid support; a conductive element; and an electronic component. Each of the support, conductive element and electronic component are fabricated from an ingestible material. The ingestible circuitry finds use in a variety of different applications, including as components of ingestible identifiers, such as may be found in ingestible event markers, e.g., pharma-informatics enabled pharmaceutical compositions.

Abstract: The present invention provides for safe and reliable electronic circuitry that can be employed in ingestible compositions. The ingestible circuitry of the invention includes a solid support; a conductive element; and an electronic component. Each of the support, conductive element and electronic component are fabricated from an ingestible material. The ingestible circuitry finds use in a variety of different applications, including as components of ingestible identifiers, such as may be found in ingestible event markers, e.g., pharma-informatics enabled pharmaceutical compositions.

Abstract: The system of the present invention includes a conductive element, an electronic component, and a partial power source in the form of dissimilar materials. Upon contact with a conducting fluid, a voltage potential is created and the power source is completed, which activates the system. The electronic component controls the conductance between the dissimilar materials to produce a unique current signature. The system can also measure the conditions of the environment surrounding the system.

Abstract: High-throughput ingestible event marker manufacturing systems are provided. The systems include an assembly unit configured to stably associate an ingestible event marker with a carrier to produce a product. Also provided are manufacturing methods to produce such products which include assembling an ingestible event marker with an assembly unit configured to stably associate an ingestible event marker with a carrier.

Abstract: The present invention provides for safe and reliable electronic circuitry that can be employed in ingestible compositions. The ingestible circuitry of the invention includes a solid support; a conductive element; and an electronic component. Each of the support, conductive element and electronic component are fabricated from an ingestible material. The ingestible circuitry finds use in a variety of different applications, including as components of ingestible identifiers, such as may be found in ingestible event markers, e.g., pharma-informatics enabled pharmaceutical compositions.

Abstract: The present invention provides for safe and reliable electronic circuitry that can be employed in ingestible compositions. The ingestible circuitry of the invention includes a solid support; a conductive element; and an electronic component. Each of the support, conductive element and electronic component are fabricated from an ingestible material. The ingestible circuitry finds use in a variety of different applications, including as components of ingestible identifiers, such as may be found in ingestible event markers, e.g., pharma-informatics enabled pharmaceutical compositions.

Abstract: A docking station for a monorail carrier system is provided. The carrier system includes a trolley that is configured to repositionably support a payload, and is adapted for interactive movement along a transfer bridge. The docking station includes a receiver plate having a rail-side portion perpendicularly oriented with a first interface portion that has one or more magnets attached thereto. A clamp assembly is attached to the rail-side portion, and operates to fasten the receiver plate to the transfer bridge at a predetermined location. The docking station also includes a docking plate having a trolley-side portion configured to securely attach to the trolley, and a second interface portion perpendicularly oriented with the trolley-side portion. The second interface portion is configured to magnetically cooperate with the first interface portion and thereby temporarily suspend the trolley at the predetermined location.

Abstract: Power sources that enable in-body devices, such as implantable and ingestible devices, are provided. Aspects of the in-body power sources of the invention include a solid support, a first high surface area electrode and a second electrode. Embodiments of the in-power sources are configured to emit a detectable signal upon contact with a target physiological site. Also provided are methods of making and using the power sources of the invention.

Abstract: A docking station for a monorail carrier system is provided. The carrier system includes a trolley that is configured to repositionably support a payload, and is adapted for interactive movement along a transfer bridge. The docking station includes a receiver plate having a rail-side portion perpendicularly oriented with a first interface portion that has one or more magnets attached thereto. A clamp assembly is attached to the rail-side portion, and operates to fasten the receiver plate to the transfer bridge at a predetermined location. The docking station also includes a docking plate having a trolley-side portion configured to securely attach to the trolley, and a second interface portion perpendicularly oriented with the trolley-side portion. The second interface portion is configured to magnetically cooperate with the first interface portion and thereby temporarily suspend the trolley at the predetermined location.

Abstract: Method and system for verifying and storing documents during a failure in a program module. Once a failure is detected in the program module, control passes to an exception handler that determines whether the open files have been modified. If so, a crash handler is executed, which verifies and stores the documents by detecting and repairing any discovered corruption. The program module is then terminated and restarted. Upon restarting the program module, the repaired document is opened and displayed to the user with a list of repairs.

Abstract: A system and a methodology creates a mapping of a set of import parameters specifying a device in a first set of import data to a set of output parameters specifying the device in a first database. Such a mapping includes receiving the set of import parameters from an import file containing the first set of import data in a plurality of import records, each import record containing a plurality of import values, each import value corresponding to an import parameter from the set of import parameters; receiving the set of output parameters from the first database; and creating the mapping of the set of import parameters to the set of output parameters. The system and methodology described in here allows users to import data about various types of devices into a device database on a systematic and efficient method. Such a system and methodology also allows a user to maintain a complete database including all devices used within a process plant.

Abstract: An apparatus and methods of making an electronic assembly. The electronic assembly comprises a functional block having at least one asymmetric feature. The functional block comprises an integrated circuitry to perform a function pertaining to the electronic assembly. The electronic assembly further comprises a substrate having a receptor site to mate with the functional block using a fluidic self-assembly process.