Patent application number | Description | Published |
20080200757 | Vivo imaging device with a small cross sectional area and methods for construction thereof - An image sensor (e.g., a CMOS sensor) includes a pixel array portion and a circuitry portion, where the circuitry portion may be segregated, for example longitudinally, from the pixel array portion. | 08-21-2008 |
20080243216 | SYSTEM AND METHOD FOR PERCUTANEOUS DELIVERY OF ELECTRICAL STIMULATION TO A TARGET BODY TISSUE - An apparatus includes a percutaneous connection port configured to convey an electrical signal between an electrical device disposed outside of a body and an electrical member disposed within the body. The percutaneous connection port has a distal portion and a proximal portion. The proximal portion includes a surface configured to be accessible from a region of the body. The distal portion includes an anchor configured to be disposed within the body. The anchor has a curved shape about an axis substantially parallel to a skin of the body. | 10-02-2008 |
20090043367 | APPARATUS AND METHODS FOR REMOVING AN ELECTRONIC IMPLANT FROM A BODY - An apparatus includes an electronic stimulator configured to be implanted within a body, and a flexible member coupled to the electronic stimulator by an adhesive. In some embodiments, the flexible member is formulated to be soluble when exposed to a bodily tissue. | 02-12-2009 |
20090054952 | SYSTEM FOR TRANSMITTING ELECTRICAL CURRENT TO A BODILY TISSUE - In some embodiments, an apparatus includes a substrate, a power source, a connector, electrical circuitry, and an electrode assembly. The substrate has a first surface and a second surface different than the first surface. The power source has a positive terminal and a negative terminal Each of the positive terminal and the negative terminal are coupled to the substrate. The power source is configured to provide power to an external stimulator coupled to the apparatus. The connector is disposed proximate to the first surface of the substrate and is electrically coupled to at least one of the positive terminal and the negative terminal of the power source. The connector is configured to electrically couple the external stimulator to the power source. The electrical circuitry is coupled to the substrate. The electrical circuitry is configured to electrically couple the connector to at least one of the positive terminal and the negative terminal of the power source. At least one of the connector or the electrical circuitry is configured to prevent a short circuit of the electrical circuit. The electrode assembly is coupled to the second surface of the substrate. At least one electrode of the electrode assembly is configured to contact bodily tissue and to facilitate transmission of an electrical current through the bodily tissue. | 02-26-2009 |
20090182403 | METHODS AND APPARATUS FOR IMPLANTING ELECTRONIC IMPLANTS WITHIN THE BODY - An apparatus includes an implant delivery device configured to deliver an implant into a body. The implant delivery device includes a target member, an insertion member and an electronic circuit system. The target member has a distal end portion configured to be disposed within the body adjacent a target location. The insertion member is movably coupled to the target member. A distal end portion of the insertion member is configured to be disposed within the body and selectively coupled to the implant. The electronic circuit system is configured to produce an electronic signal in proportion to a distance between the distal end portion of the target member and the distal end portion of the insertion member when the target member and the insertion member are disposed within the body. | 07-16-2009 |
20090259280 | ELECTRICAL STIMULATION LEAD WITH BIOERODIBLE ANCHORS AND ANCHOR STRAPS - An apparatus includes a coupling portion, a bioerodible anchor portion and a bioerodable retainer. The coupling portion is configured to be coupled to an electrical conductor. The bioerodible retention portion is adjacent to the coupling portion and is moveable from a collapsed configuration to an expanded configuration. The bioerodible retention portion is configured to anchor the electrical conductor with respect to body tissue when the bioerodible retention portion is in its expanded configuration. The bioerodible anchor portion is formulated to erode when disposed within the body tissue at a first rate. The bioerodible retainer is coupled to the bioerodible anchor portion and is configured to inhibit movement of the bioerodible anchor portion from the collapsed configuration to the expanded configuration. The bioerodible retainer is formulated to erode when disposed within the body tissue at a second rate greater than the first rate. | 10-15-2009 |
20090326602 | TREATMENT OF INDICATIONS USING ELECTRICAL STIMULATION - In one embodiment, a method includes implanting an implant entirely under the subject's skin. The implant includes a passive electrical conductor of sufficient length to extend from subcutaneous tissue located below one of a surface cathodic electrode and a surface anodic electrode to the tibial nerve. The surface electrodes are positioned in spaced relationship on the subject's skin, with one of the electrodes positioned over the pick-up end of the electrical conductor such that the portion of the current is transmitted through the conductor to the tibial nerve, and such that the current flows through the tibial nerve and returns to the other of the surface cathodic electrode and the surface anodic electrode. An electrical current is applied between the surface cathodic electrode and the surface anodic electrode to cause the portion of the electrical current to flow through the implant to stimulate the tibial nerve. | 12-31-2009 |
20100036465 | Insertion tools and methods for an electrical stimulation implant - In some embodiments, a method includes inserting at least a distal end portion of an insertion tool within a body. The distal end portion of the insertion tool is coupled to an electronic implant having a stimulation portion, a terminal portion and a substantially flexible conductor disposed between the stimulation portion and the terminal portion. The distal end portion of the insertion tool is moved within the body such that the stimulation portion of the electronic implant is disposed adjacent a target location and the terminal portion of the electronic implant is disposed beneath a skin of the body. | 02-11-2010 |
20100073512 | REAL-TIME EXPOSURE CONTROL FOR AUTOMATIC LIGHT CONTROL - An imager and a method for real-time, non-destructive monitoring of light incident on imager pixels during their exposure to light. Real-time or present pixel signals, which are indicative of present illumination on the pixels, are compared to a reference signal during the exposure. Adjustments, if necessary, are made to programmable parameters such as gain and/or exposure time to automatically control the imager's exposure to the light. In a preferred exemplary embodiment, only a selected number of pixels are monitored for exposure control as opposed to monitoring the entire pixel array. | 03-25-2010 |
20100076533 | SYSTEM FOR TRANSMITTING ELECTRICAL CURRENT TO A BODILY TISSUE - In some embodiments, an apparatus includes a substantially rigid base and a flexible substrate. The substantially rigid base has a first protrusion and a second protrusion, and is configured to be coupled to an electronic device. The flexible substrate has a first surface and a second surface, and includes an electrical circuit configured to electronically couple the electronic device to at least one of an electrode a battery, or an antenna. The flexible substrate is coupled to the base such that a first portion of the second surface is in contact with the first protrusion. A second portion of the second surface is non-parallel to the first portion. | 03-25-2010 |
20100110168 | APPARATUS AND METHOD FOR LIGHT CONTROL IN AN IN-VIVO IMAGING DEVICE - A device and method for example operating an in vivo imaging device wherein the illumination is operated at a certain rate or range of rates, and images are transmitted from the device. | 05-06-2010 |
20100119133 | DEVICE, SYSTEM AND METHOD FOR MOTILITY MEASUREMENT AND ANALYSIS - A device, system and method for motility measurement and analysis. For example, a system includes a processor to determine contractile activity within a body lumen based on an analysis of data received from an autonomous in-vivo device. | 05-13-2010 |
20100121225 | DEVICE AND METHOD FOR EXAMINING A BODY LUMEN - A system and method for indicating transferability of a non-dissolvable target in-vivo device through the GI tract are described. The in vivo system includes a dissolvable in-vivo device which has two operational phases; an initial phase in which the device is of initial dimensions and a final phase in which the device is of final dimensions. In the initial phase the device can pass freely through a normally configured body lumen whereas it may not be able to pass freely through an abnormally configured lumen. In the final phase the device can pass freely through a body lumen even if it is abnormally configured. | 05-13-2010 |
20100134606 | DIAGNOSTIC DEVICE, SYSTEM AND METHOD FOR REDUCED DATA TRANSMISSION - A device, system and method may enable the obtaining of in vivo images from within body lumens or cavities, such as images the gastrointestinal (GI) tract, where the data such as image data is typically transmitted or otherwise sent to a receiving system in compressed or diluted form. The image may be reconstructed and for example displayed to a user. | 06-03-2010 |
20100137686 | DEVICE AND METHOD FOR ORIENTING A DEVICE IN VIVO - An in vivo device, such as an in vivo imaging device or other sensing device, may include a device body and at least one appendage coupled to the device body. According to some embodiments the appendage(s) may be extended or expanded, or reduced or removed, in vivo, thereby altering the device geometry while in a body lumen. | 06-03-2010 |
20100324381 | DEVICE, SYSTEM AND METHOD FOR SELECTIVE ACTIVATION OF IN VIVO SENSORS - A device, system and method for selectively activating or altering the operational mode of an autonomous in vivo device in response to in vivo conditions. The system may include an in vivo sensing device with a condition tester, and a controller. The in vivo sensing device may be in communication with an external receiver. The condition tester may include at least one layer of dissolvable material coated on at least a portion of the autonomous device. The layer may dissolve when exposed to a specific material of a specified site along the GI tract. A sensor may be exposed when the layer dissolves or a switch autonomous activated when the layer dissolves | 12-23-2010 |
20110282412 | TREATMENT OF INDICATIONS USING ELECTRICAL STIMULATION - In one embodiment, a method includes implanting an implant entirely under the subject's skin. The implant includes a passive electrical conductor of sufficient length to extend from subcutaneous tissue located below one of a surface cathodic electrode and a surface anodic electrode to the tibial nerve. The surface electrodes are positioned in spaced relationship on the subject's skin, with one of the electrodes positioned over the pick-up end of the electrical conductor such that the portion of the current is transmitted through the conductor to the tibial nerve, and such that the current flows through the tibial nerve and returns to the other of the surface cathodic electrode and the surface anodic electrode. An electrical current is applied between the surface cathodic electrode and the surface anodic electrode to cause the portion of the electrical current to flow through the implant to stimulate the tibial nerve. | 11-17-2011 |
20120154563 | REAL-TIME EXPOSURE CONTROL FOR AUTOMATIC LIGHT CONTROL - An imager and a method for real-time, non-destructive monitoring of light incident on imager pixels during their exposure to light. Real-time or present pixel signals, which are indicative of present illumination on the pixels, are compared to a reference signal during the exposure. Adjustments, if necessary, are made to programmable parameters such as gain and/or exposure time to automatically control the imager's exposure to the light. In a preferred exemplary embodiment, only a selected number of pixels are monitored for exposure control as opposed to monitoring the entire pixel array. | 06-21-2012 |
20130138190 | METHODS AND APPARATUS FOR IMPLANTING ELECTRONIC IMPLANTS WITHIN THE BODY - An apparatus includes an implant delivery device configured to deliver an implant into a body. The implant delivery device includes a target member, an insertion member and an electronic circuit system. The target member has a distal end portion configured to be disposed within the body adjacent a target location. The insertion member is movably coupled to the target member. A distal end portion of the insertion member is configured to be disposed within the body and selectively coupled to the implant. The electronic circuit system is configured to produce an electronic signal in proportion to a distance between the distal end portion of the target member and the distal end portion of the insertion member when the target member and the insertion member are disposed within the body. | 05-30-2013 |
20130211255 | SYSTEM AND METHOD FOR IN-VIVO IMAGING - An in-vivo imaging device including a camera may include a frame storage device. Systems and methods which vary the frame capture rate of the camera and/or frame display rate of the display unit of in-vivo camera systems are discussed. The capture rate is varied based on for example, a physical quantity experienced by the camera system, or physical measurements related to the motion of the camera. Alternatively, the frame capture rate is varied based on comparative image processing of a plurality of frames. The frame display rate of the system may be varied based on comparative image processing of a multiplicity of frames. Both the frame capture and the frame display rates of such systems can be varied concurrently. | 08-15-2013 |
20130258083 | DEVICE AND SYSTEM FOR IN-VIVO IMAGING - The present invention provides a system and method for obtaining in vivo images. The system contains an imaging system and a transmitter for transmitting signals from a camera to a receiving system located outside a patient. | 10-03-2013 |
20140022368 | IMAGE SENSOR INCLUDING REAL-TIME AUTOMATIC EXPOSURE CONTROL AND SWALLOWABLE PILL INCLUDING THE SAME - An imager and a method for real-time, non-destructive monitoring of light incident on imager pixels during their exposure to light. Real-time or present pixel signals, which are indicative of present illumination on the pixels, are compared to a reference signal during the exposure. Adjustments, if necessary, are made to programmable parameters such as gain and/or exposure time to automatically control the imager's exposure to the light. In a preferred exemplary embodiment, only a selected number of pixels are monitored for exposure control as opposed to monitoring the entire pixel array. | 01-23-2014 |
20140039287 | METHOD AND SYSTEM FOR DETECTING COLORIMETRIC ABNORMALITIES IN VIVO - A system and method for detection of calorimetric abnormalities within a body lumen includes an image receiver for receiving images from within the body lumen. Also included are a transmitter for transmitting the images to a receiver, and a processor for generating a probability indication of presence of colorimetric abnormalities on comparison of color content of the images and at least one reference value. | 02-06-2014 |