MICROCHIPS, INC. Patent applications |
Patent application number | Title | Published |
20140243624 | IMPLANTABLE MEDICAL DEVICE FOR MINIMALLY-INVASIVE INSERTION - In one aspect, containment devices are provided that include a microchip element having one or more containment reservoirs that are configured to be electrically activated to open; an electronic printed circuit board (PCB) or a silicon substrate positioned adjacent to the microchip element; one or more electronic components associated with the microchip element or the PCB/silicon substrate; and a first inductive coupling device associated with the microchip element or the PCB/silicon substrate, wherein the first inductive coupling device is in operable communication with the one or more electronic components. In another aspect, implantable drug delivery devices are provided that include a body housing at least one drug payload for actively controlled release, wherein the ratio of the volume of the at least one drug payload to the total volume of the implantable drug delivery device is from about 75 μL/cc to about 150 μL/cc. | 08-28-2014 |
20140180262 | IMPLANTABLE MEDICAL DEVICE FOR MINIMALLY-INVASIVE INSERTION - Containment devices and methods of manufacture and assembly are provided. In an embodiment, the containment device includes an elongated microchip element comprising one or more containment reservoirs that are configured to be electrically activated to open. The containment device also include an elongated electronic printed circuit board (PCB) comprising a substrate. The elongated PCB comprises a first side on which one or more electronic components are fixed and an opposed second side on which the elongated microchip element is fixed in electrical connection to the one or more electronic components. Further, the containment device includes an elongated housing fixed to the elongated PCB. The elongated housing is configured to hermetically seal the one or more electronic components of the elongated PCB within the elongated housing. | 06-26-2014 |
20130126349 | BIOSENSOR MEMBRANE COMPOSITION, BIOSENSOR, AND METHODS FOR MAKING SAME - Selectively permeable membranes for biosensors are provided. In one embodiment, the membrane includes a polymer mixture that includes a polyurethane component, a siloxane component, and a hydrogel component, the components in the mixture in amounts of about 60 to about 80 wt % polyurethane, about 10 to about 20 wt % siloxane, and about 10 to about 20 wt % hydrogel. The membrane has a surface restructured to be hydrophilic, with the restructured surface being crosslinked ed via reactive end groups on at least one of the polyurethane, the siloxane, and the hydrogel components. In another embodiment, the membrane includes a solvent cast film which includes a mixture of a first polyether-based thermoplastic polyurethane copolymer, a polyether-based polyurethane copolymer, and, optionally, a second polyether-based thermoplastic polyurethane copolymer. | 05-23-2013 |
20130053671 | SPACE-EFFICIENT CONTAINMENT DEVICES AND METHOD OF MAKING SAME - Containment devices and methods of manufacture and assembly are provided. In an embodiment, the device includes at least one microchip element, which includes a containment reservoir that can be electrically activated to open, and a first electronic printed circuit board (PCB) which comprises a biocompatible substrate. The first PCB may have a first side on which one or more electronic components are fixed and an opposed second side on which the microchip element is fixed in electrical connection to the one or more electronic components. The device may further include a second PCB and a housing ring securing the first PCB together with the second PCB. The microchip element may include a plurality of containment reservoirs, which may be microreservoirs, and/or which may contain a drug formulation or a sensor element. | 02-28-2013 |
20130002496 | WIRELESS COMMUNICATION WITH A MEDICAL IMPLANT - An apparatus for providing transdermal wireless communication includes medical implant circuitry; a transceiver coupled to the medical implant circuitry; a first metal surface having an end portion and a base portion; a second metal surface parallel to the first metal surface and connected to the first metal surface by a conductor, the second metal surface being separated from the first metal surface by a dielectric layer; a first radiating element tuned to a first frequency and disposed within the dielectric layer between the first metal surface and second metal surface; and a feed structure in electrical communication with the transceiver and the first radiating strip. The first radiating element has a first reactive portion at a first end thereof, a second reactive portion at a second end thereof, and a first radiating strip extending between the first reactive portion and the second reactive portion. | 01-03-2013 |
20120241216 | COMPRESSION AND COLD WELD SEALING METHODS AND DEVICES - Compression cold welding methods, joint structures, and hermetically sealed containment devices are provided. The method includes providing a first substrate having at least one first joint structure which comprises a first joining surface, which surface comprises a first metal; providing a second substrate having at least one second joint structure which comprises a second joining surface, which surface comprises a second metal; and compressing together the at least one first joint structure and the at least one second joint structure to locally deform and shear the joining surfaces at one or more interfaces in an amount effective to form a metal-to-metal bond between the first metal and second metal of the joining surfaces. Overlaps at the joining surfaces are effective to displace surface contaminants and facilitate intimate contact between the joining surfaces without heat input. Hermetically sealed devices can contain drug formulations, biosensors, or MEMS devices. | 09-27-2012 |
20120130339 | Multi-Dose Drug Delivery Device and Method - Drug delivery devices and methods are provided. The device included two or more housing units connected together end-to-end in a fixed, linear orientation, the exterior surfaces of the connected housing units defining a sidewall of the device; discrete drug dose units disposed within the housing units; degradable timing members connected to the housing units and separating the discrete dose units from one another; first and second end pieces defining opposed ends of the device such that the discrete dose units are located between the first and second end pieces within each of the housing units, wherein the device is configured to release in vivo a first of the discrete dose units following rupture of the first or second end piece, and subsequently to release in vivo a second of the discrete dose units following rupture of the degradable timing member separating the first discrete dose unit from the second discrete dose unit. | 05-24-2012 |
20120035528 | LOW-PERMEABILITY, LASER-ACTIVATED DRUG DELIVERY DEVICE - An implantable drug delivery device that uses multiple reservoir elements to contain and release doses of active pharmaceutical ingredients. The device includes a first shell element, which has a first enclosed cavity volume and forms a low-permeability barrier. The first shell element is configured to absorb light irradiation from a laser source, the laser irradiation causing a breach in the first shell element. A first active pharmaceutical ingredient is contained in the first enclosed cavity volume and is released when the first shell element is breached. The device also includes a second shell element, which has a second enclosed cavity volume and also forms a low-permeability barrier. A second active pharmaceutical ingredient is contained in the second enclosed cavity volume. The device also includes an envelope element containing the first and second shell elements. | 02-09-2012 |
20110172587 | METHOD AND SYSTEM FOR DRUG DELIVERY TO THE EYE - Methods and systems are provided for delivering drug to the eye. The method and system may include implanting into the eye a device which comprises two or more discrete reservoirs, each reservoir containing a drug; and directing focused light to the implanted device to open a first one of the reservoirs and thereby permit the drug to diffuse from the first reservoir to the patient's eye. | 07-14-2011 |
20110089957 | MULTI-CHANNEL POTENTIOSTAT FOR BIOSENSOR ARRAYS - Arrays of biosensors are provided along with methods for operating the arrays of biosensors. The array of biosensors may include a first reference electrode that is connected to an input of a first control amplifier; a first working electrode and a second working electrode in proximity with the first reference electrode; and a counter electrode that is connected to at least an output of the first control amplifier, where the first control amplifier is operative with the counter electrode to maintain a first specified voltage between the first working electrode and the first reference electrode, and between the second working electrode and the first reference electrode. The array of biosensors optionally may further include a second reference electrode that is connected to an input of a second control amplifier, where the second control amplifier is operative with the counter electrode to maintain a second specified voltage between the first working electrode and the second reference electrode, and between the second working electrode and the second reference electrode. | 04-21-2011 |
20100151113 | MANUFACTURE OF A RADIATING STRUCTURE FOR A MEDICAL IMPLANT - A method of manufacturing a radiating structure having a selected capacitance. The method includes receiving a particular lot of a dielectric material having a nominal permittivity; receiving a measured value of an actual permittivity for the particular lot, the actual permittivity being different from the nominal permittivity; using the actual permittivity, determining the number of laminas of dielectric material required to cause the radiating structure to have the selected capacitance; causing the determined number of laminas of the dielectric material to be formed on a substrate, thereby forming a dielectric layer; and causing the radiating element to form on the layer. | 06-17-2010 |
20100149042 | WIRELESS COMMUNICATION WITH A MEDICAL IMPLANT - An apparatus for providing transdermal wireless communication includes medical implant circuitry; a transceiver coupled to the medical implant circuitry; a first metal surface having an end portion and a base portion; a second metal surface parallel to the first metal surface and connected to the first metal surface by a conductor, the second metal surface being separated from the first metal surface by a dielectric layer; a first radiating element tuned to a first frequency and disposed within the dielectric layer between the first metal surface and second metal surface; and a feed structure in electrical communication with the transceiver and the first radiating strip. The first radiating element has a first reactive portion at a first end thereof, a second reactive portion at a second end thereof, and a first radiating strip extending between the first reactive portion and the second reactive portion. | 06-17-2010 |
20100137696 | MEDICAL DEVICE WITH RESERVOIR-BASED SENSORS - A medical device is provided which may include a reservoir which has an opening and contains a sensor; a reservoir cap closing off the opening to isolate the sensor from an environmental component outside the reservoirs, the reservoir cap being impermeable to the environmental component and adapted to selectively undergo a phase change to disintegrate the reservoir cap and thereby expose the sensor to the environmental component. A method of use may include (i) selectively disintegrating a reservoir cap to expose a sensor which is disposed inside a reservoir of a device implanted in a patient, the disintegrating comprising inducing a phase change in the reservoir cap; and (ii) using the sensor to generate an output signal, wherein the output signal is recorded and stored in a writeable computer memory chips, directed to a microprocessor for immediate analysis and processing, or sent to a remote location away from the device. | 06-03-2010 |
20100042075 | MULTI-OPENING RESERVOIR DEVICES FOR CONTROLLED RELEASE OR EXPOSURE OF RESERVOIR CONTENTS - Devices, such as medical devices, are provided which include a body portion having at least one reservoir which has two or more openings, the two or more openings being defined in part by a reservoir cap support; reservoir contents, such as a drug formulation or sensor, disposed inside the reservoir; and a reservoir cap which closes off the two or more reservoir openings. The reservoir cap, which can be ruptured, controls release or exposure of the reservoir contents. In one embodiment, the device is an implantable medical device and provides for the controlled release of drug or exposure of a sensor. | 02-18-2010 |
20100023071 | SYSTEMS AND DEVICES FOR NEURAL STIMULATION AND CONTROLLED DRUG DELIVERY - Medical devices and methods are provided for electrical stimulation of neural tissue and controlled drug delivery to a patient. The device includes an implantable drug delivery module which comprises a plurality of reservoirs, a release system comprising at least one drug contained in each of the reservoirs, and control means for selectively releasing a pharmaceutically effective amount of drug from each reservoir; a neural electrical stimulator which comprises a signal generator connected to at least one stimulation electrode for operable engagement with a neural tissue of the patient; and at least one microcontroller for controlling operational interaction of the drug delivery module and the neural electrical stimulator. The microcontroller may control the signal generator and the control means of the drug delivery module. The device may further include a sensor operable to deliver a signal to the microcontroller, for example to indicate when to deliver electrical stimulation, drug, or both. | 01-28-2010 |
20090142386 | CONTROL OF DRUG RELEASE BY TRANSIENT MODIFICATION OF LOCAL MICROENVIRONMENTS - Methods, formulations, and devices are provided for enhancing drug delivery from a medical device. The method is provided for increasing the rate or quantity of a drug formulation released from an implantable drug delivery device, which method comprises the step of providing a release-modifying agent within or proximate to the implantable drug delivery device, in a manner effective to inhibit gelation, aggregation, or precipitation of the drug formulation being released from the device. The drug formulation and the release-modifying agent may be stored together in at least one reservoir in the implantable drug deliver device. Alternatively, the release-modifying agent may be stored in one or more reservoirs separate from the drug formulation. | 06-04-2009 |
20090130167 | Drug Delivery Device and Method for Use with Prosthetic Device Implantation - Implantable drug delivery devices are provided which are adapted to be installed adjacent to at least a portion of an orthopedic prosthetic device implanted on a surgically prepared bone section of a patient. For example, the prosthetic device may be a hip joint replacement or knee joint replacement. The drug delivery device may include a body having a core formed from a non-biodegradable material formed in the shape of a sleeve and having an inner surface and an outwardly directed outer surface, wherein the outer surface has a drug formulation for release thereof into the body of the animal following implantation of the prosthetic device within the body of the animal. The outer surface may define one or more pockets for holding the drug formulation. | 05-21-2009 |
20090112188 | DEVICE FOR CONTROLLING EXPOSURE OF RESERVOIR CONTENTS TO SURROUNDINGS - Microchip devices are provided that include a substrate; a plurality of reservoirs in the substrate, each reservoir defining an internal volume; and a reservoir cap positioned on or in each of the reservoirs bounding the internal volume from an external environment, the reservoir cap being formed of a material that undergoes a phase change upon heating, wherein the internal volume can communicate with the external environment upon heating said reservoir cap to cause said reservoir cap to undergo a phase change and rupture. | 04-30-2009 |
20090030404 | CONTAINMENT DEVICE WITH MULTI-LAYER RESERVOIR CAP STRUCTURE - Devices and methods are provided for the controlled release or exposure of reservoir contents. The device includes a substrate, a plurality of reservoirs in the substrate, reservoir contents disposed in the reservoirs, discrete reservoir caps covering each reservoir to seal the reservoir contents in the reservoirs, and control circuitry for selectively disintegrating the reservoir caps to release or expose the reservoir contents in vivo. At least one of the reservoir caps comprises a first electrically conductive layer coated with one or more protective layers. In one embodiment, the control circuitry comprises an electrical input lead and an electrical output lead connected to and directly contacting each of said reservoir caps and a source of electric power for applying an electrical current through each reservoir cap in an amount effective to rupture each of the reservoir caps. | 01-29-2009 |
20090024113 | MULTI-RESERVOIR MEDICAL DEVICE HAVING PROTECTED INTERIOR WALLS - An implantable medical device is provided for controlled delivery or exposure of reservoir contents. The device may include a substrate; a plurality of discrete reservoirs in the substrate, wherein the reservoirs have interior walls and at least one opening in the substrate; reservoir contents disposed in the reservoirs; a reservoir cap closing the at least one opening of each of the reservoirs to seal the reservoir contents in each of the reservoirs; and control circuitry for selectively disintegrating the reservoir caps to release or expose the reservoir contents in vivo, wherein the interior walls of the reservoirs comprise a material to protect the substrate in vivo. For example, to enhance the resistance of the substrate to etching in vivo, the interior sidewalls of the reservoirs may include a protective coating (such as gold, platinum, carbon, silicon carbide, silicon dioxide, or platinum silicide), or the sidewalls may include a doped silicon. | 01-22-2009 |
20090018413 | IMPLANTABLE MEDICAL DEVICE FOR DIAGNOSTIC SENSING - An implantable medical device is provided for use with an external detector to detect an analyte in vivo. In one embodiment, the device consisting essentially of a substrate; a plurality of discrete reservoirs located in the substrate, each reservoir having at least one opening; a reacting component contained in each reservoir; and at least one non-degradable barrier layer covering each reservoir opening, the barrier layer being permeable to an analyte to be detected, wherein the reacting component remains inside the reservoirs and can react with the analyte to be detected, and wherein the device is adapted for implantation into the body of a patient. | 01-15-2009 |
20080302659 | ELECTROCHEMICAL BIOSENSORS AND ARRAYS - Electrochemical sensor devices are provided, in various amperometric, potentiometric, and conductometric sensor device configurations. An amperometric sensor device may include a structural body which has at least one reservoir that has at least one opening; a working electrode located within the reservoir; analyte sensor chemistry located within the reservoir and deposited on at least the working electrode; an auxiliary electrode located outside of the reservoir; a reference electrode; at least one reservoir cap closing the opening to isolate the working electrode and analyte sensor chemistry within the reservoir and to prevent an analyte outside of the reservoir from contacting the analyte sensor chemistry; and means for rupturing or displacing the reservoir cap to permit the analyte from outside of the reservoir to contact the analyte sensor chemistry. | 12-11-2008 |
20080221557 | METHOD OF OPENING RESERVOIR OF CONTAINMENT DEVICE - A method is provided for selectively opening a containment reservoir. The method includes providing a device which comprises a substrate in which at least one reservoir is located and covered by a reservoir cap; and directing laser light to said reservoir cap to cause the reservoir cap to disintegrate or become permeable. The device may be an implantable medical device. The reservoirs may contain a drug for controlled release or a biosensor. | 09-11-2008 |
20080221555 | METHOD FOR WIRELESSLY MONITORING IMPLANTED MEDICAL DEVICE - A method is provided for monitoring the status of a medical device implanted in a patient. The method includes the steps of implanting in a patient a medical device which comprises (i) a substrate in which two or more reservoirs are located, with each covered by a reservoir cap, (ii) a drug or sensor located in the reservoir, (iii) a power source and actuation electronics for disintegrating or permeabilizing the reservoir cap, and (iv) a telemetry system; and then using said telemetry system to wirelessly transmit to a remote controller data about the condition of the power source and/or data about which reservoirs have been or have yet to be activated to release the drug therefrom or to expose the sensor therein. | 09-11-2008 |