Abstract: Methods and devices are provided for mechanically sealing the reservoirs of microchip devices to prevent leakage from or between any of the reservoirs. In one embodiment, the method includes sandwiching a microchip device and a gasket material covering the reservoir openings between a front sealing frame and a backplate, such that the gasket material is compressed against the back side of the microchip device by the back plate. The front sealing frame is secured to the back sealing plate using fasteners or welding. The gasket material is preferably a flexible polymeric sheet, which is biocompatible and compatible with the reservoir contents. In another embodiment, a composite backplate is used in place of the back sealing plate and separate gasket material. The composite backplate can include a substrate having sealing plugs defined thereon. The composite backplate also can be designed to hold the drug, thereby combining the assembly steps of reservoir filling and sealing.

Abstract: This invention relates to methods and apparatus for performing microanalytic and microsynthetic analyses and procedures. The invention provides a microsystem platform and a micromanipulation device for manipulating the platform that utilizes the centripetal force resulting from rotation of the platform to motivate fluid movement through microchannels. The invention specifically provides devices and methods for performing miniaturized in vitro amplification assays such as the polymerase chain reaction. Methods specific for the apparatus of the invention for performing PCR are provided.

Abstract: This invention provides methods an apparatus for detecting and quantifying particulate matter suspended in a fluid. Specifically, the invention provides an integrated, affinity-binding based, analytical system comprising a platform for performing an affinity-binding based assay for specifically binding particulates including microbial cells, and a detection means for detecting the particulates specifically bound to a defined surface or chamber comprising the platform. Methods for using the analytical systems of the invention are also provided.

Abstract: Microchip devices and methods of use are provided for the controlled exposure of a secondary device. In one embodiment, the microchip device include a substrate, a plurality of reservoirs in the substrate, a secondary device in one or more of the reservoirs, at least one barrier layer covering each of the reservoirs to isolate the secondary device from an environmental component outside the reservoirs, wherein the barrier layer is impermeable to the environmental component, and a microprocessor-controlled actuation means for rendering the barrier layer porous or permeable to the environmental component to expose the secondary device to said environmental component. The secondary device can comprise a sensor or sensing component (e.g., a biosensor). In other embodiments, microchip devices are provided for the controlled exposure of a reacting component, such as an enzyme. In still other embodiments, sensors are provided on the device outside of the reservoirs.

Abstract: Microchip devices are provided which include a substrate having a plurality of reservoirs containing a secondary device, a reacting component, or a combination thereof. At least one barrier layer covers each reservoir to isolate the reservoir contents from one or more environmental components outside the reservoirs. The barrier layer can be selectively disintegrated or permeabilized to expose the isolated contents to the one or more environmental components. The secondary device preferably includes a sensor or sensing component, for example, a biosensor, or a light detection or imaging device, such as an optical fiber. Preferred reacting components include catalysts and reagent, which may be immobilized in the reservoirs.

Abstract: Microchip devices are provided which include a substrate having a plurality of reservoirs containing a secondary device, a reacting component, or a combination thereof. At least one barrier layer covers each reservoir to isolate the reservoir contents from one or more environmental components outside the reservoirs. The barrier layer can be selectively disintegrated or permeabilized to expose the isolated contents to the one or more environmental components. The secondary device preferably includes a sensor or sensing component, for example, a biosensor, or a light detection or imaging device, such as an optical fiber. Preferred reacting components include catalysts and reagent, which may be immobilized in the reservoirs.

Abstract: Microchip devices are provided with an inert and biocompatible conformal coating to mitigate adverse responses following device implantation in a patient, to contain and seal a drug or other material within the device, and/or to insulate the electrical connections to the device. The device can include: (1) a substrate having a plurality of reservoirs; (2) reservoir contents, such as a drug or biosensor, in the reservoirs; (3) reservoir caps covering the reservoirs to isolate the contents from environmental components outside the reservoirs; and (4) a conformal coating over the outer surface of at least a portion of the substrate other than the reservoir caps. The reservoir caps can be selectively disintegrated or permeabilized to expose the reservoir contents to environmental components. The conformal coating preferably comprises a vapor depositable polymeric material, such as parylene. Processes for controlling coating of the devices while facilitating reservoir cap exposure are provided.

Abstract: Microchip devices and methods of manufacture thereof are provided to increase the uniformity and reliability of active exposure and release of microchip reservoir contents. In one embodiment, the microchip device for the controlled release or exposure of molecules or secondary devices comprises: (1) a substrate having a plurality of reservoirs; (2) reservoir contents comprising molecules, a secondary device, or both, located in the reservoirs; (3) reservoir caps positioned on the reservoirs over the reservoir contents; (4) electrical activation means for disintegrating the reservoir cap to initiate exposure or release of the reservoir contents in selected reservoirs; and (5) a current distribution means, a stress induction means, or both, operably engaged with or integrated into the reservoir cap, to enhance reservoir cap disintegration.

Abstract: Methods and devices are provided for mechanically sealing the reservoirs of microchip devices to prevent leakage from or between any of the reservoirs. In one embodiment, the method includes sandwiching a microchip device and a gasket material covering the reservoir openings between a front sealing frame and a backplate, such that the gasket material is compressed against the back side of the microchip device by the back plate. The front sealing frame is secured to the back sealing plate using fasteners or welding. The gasket material is preferably a flexible polymeric sheet, which is biocompatible and compatible with the reservoir contents. In another embodiment, a composite backplate is used in place of the back sealing plate and separate gasket material. The composite backplate can include a substrate having sealing plugs defined thereon. The composite backplate also can be designed to hold the drug, thereby combining the assembly steps of reservoir filling and sealing.

Abstract: Methods and devices are provided for enhancing corrosion of an electrode in a biocompatible fluid. The method comprises (1) placing a primary electrode and a counter electrode in an electroconductive biocompatible fluid to form an electrochemical cell; and (2) applying a time-varying potential, through the electrochemical cell, to the primary electrode. In a preferred embodiment, the primary electrode is metal and comprises a reservoir cap of a microchip device for the release of molecules or exposure of device reservoir contents. The potential preferably is characterized by a waveform having a maximum potential effectively anodic to meet or exceed the corrosion potential of the primary electrode. Also, the minimum potential preferably is effectively cathodic to be below the value where re-deposition of metal ions on the metal electrode can substantially occur, thereby corroding the metal electrode.

Abstract: This invention provides methods and apparatus for performing microanalytic analyses and procedures, particularly miniaturized cell based assays. These methods are useful for performing a variety of cell-based assays, including drug candidate screening, life sciences research, and clinical and molecular diagnostics.

Abstract: Microchip device arrays that can conform to a curved surface are provided for the controlled release or exposure of reservoir contents. The arrays comprise two or more microchip device elements, each of which includes a plurality of reservoirs that contain molecules for controlled release or components for selective exposure, and a means for flexibly connecting the device elements. The reservoirs can contain one or more drugs and/or one or more secondary devices, such as a sensor or a component thereof. Preferably, the microchip devices contain and controllably release therapeutic, prophylactic, and diagnostic molecules to and into the eye of a patient in need thereof.

Abstract: This invention provides methods an apparatus for detecting and quantifying particulate matter suspended in a fluid. Specifically, the invention provides an integrated, affinity-binding based, analytical system comprising a platform for performing an affinity-binding based assay for specifically binding particulates including microbial cells, and a detection means for detecting the particulates specifically bound to a defined surface or chamber comprising the platform. Methods for using the analytical systems of the invention are also provided.

Abstract: Devices, systems, and methods are provided for wirelessly powering and/or communicating with microchip devices used for the controlled exposure and release of reservoir contents, such as drugs, reagents, and sensors. In one embodiment, the system includes (1) a microchip device comprising a substrate having a plurality of reservoirs containing reservoir contents for release or exposure; and (2) a rechargeable or on-demand power source comprising a local component which can wirelessly receive power from a remote transmitter wherein the received power can be used, directly or following transduction, to activate said release or exposure of the reservoir contents. In another embodiment, the system comprises (1) a microchip device comprising a substrate a plurality of reservoirs containing reservoir contents for release or exposure; and (2) a telemetry system for the wireless transfer of data between the microchip device and a remote controller.

Abstract: This invention relates to methods and apparatus for performing microanalytic and microsynthetic analyses and procedures. The invention particularly provides microsystem platforms comprising microfluidics components wherein the interior surfaces of the components comprise a conformal coating of parylene.

Abstract: This invention provides methods and apparatus for detecting and quantifying particulate matter suspended in a fluid. Specifically, the invention provides an integrated, affinity-binding based, analytical system comprising a platform for performing an affinity-binding based assay for specifically binding particulates including microbial cells, and a detection device for detecting the particulates specifically bound to a defined surface or chamber comprising the platform. Methods for using the analytical systems of the invention are also provided.

Abstract: This invention provides methods an apparatus for detecting and quantifying particulate matter suspended in a fluid. Specifically, the invention provides an integrated, affinity-binding based, analytical system comprising a platform for performing an affinity-binding based assay for specifically binding particulates including microbial cells, and a detection means for detecting the particulates specifically bound to a defined surface or chamber comprising the platform. Methods for using the analytical systems of the invention are also provided.