Patent application number | Description | Published |
20090088826 | ANCHORING APPARATUS AND METHODS FOR USE - An apparatus for securing an implantable lead within tissue of a patient includes a base adapted to be secured to a patient's skull adjacent a craniotomy. The base has an upper surface and a lower surface with a central passage therebetween. The central passage is adapted to receive the implantable lead therethrough. The apparatus also has a cover that is releasably coupled to the base so as to substantially cover the central passage and capture the implantable lead therebetween. A first rotating member is also coupled with the base and the first member is rotationally movable so as to meet and engage the implantable lead at a plurality of positions within the central passage. | 04-02-2009 |
20090287287 | MULTI-CHANNEL CONNECTOR FOR BRAIN STIMULATION SYSTEM - An implantable connector for use with a neurological device and a lead extension includes a male connector having a plurality of electrical contacts axially arranged along the connector, insulated from each other. The connector also includes a female connector having one or more channels axially disposed therein and a plurality of conductors axially arranged on the female connector. The plurality of conductors are electrically insulated from each other, and at least one indexing element is disposed adjacent to one or more of the channels. The indexing element allows the male connector to be received into the one or more channels in a defined orientation relative to the channel, thereby forming at least two electrical connections along two or more axial positions. Often the neurological device is a brain stimulating and recording lead. The male and female connectors are often fastened together with a screw or by twist-locking the two members together. | 11-19-2009 |
20110184335 | MULTI-CHANNEL CONNECTOR FOR BRAIN STIMULATION SYSTEM - An implantable connector for use with a neurological device and a lead extension includes a male connector having a plurality of electrical contacts axially arranged along the connector, insulated from each other. The connector also includes a female connector having one or more channels axially disposed therein and a plurality of conductors axially arranged on the female connector. The plurality of conductors are electrically insulated from each other, and at least one indexing element is disposed adjacent to one or more of the channels. The indexing element allows the male connector to be received into the one or more channels in a defined orientation relative to the channel, thereby forming at least two electrical connections along two or more axial positions. Often the neurological device is a brain stimulating and recording lead. The male and female connectors are often fastened together with a screw or by twist-locking the two members together. | 07-28-2011 |
20120065699 | DEVICES AND METHODS FOR TISSUE MODULATION AND MONITORING - A tissue stimulating device has an elongate member, a proximal annular stimulating region and a distal annular stimulating region. Each of the annular stimulating regions circumscribe the elongate member, and each has a plurality of independently energizable electrodes that deliver current into tissue. Adjacent electrodes in the annular stimulating regions are separated from one another by an insulating member. The annular stimulating regions are axially separated from one another by a gap. An internal electrical connector electrically couples a first electrode in the proximal annular stimulating region with a first electrode in the distal annular stimulating region. The first internal electrical connector is disposed within the elongate member, and extends across the gap between annular stimulating regions. A recording electrode is disposed in the gap and is adapted to record local tissue potentials from the tissue. | 03-15-2012 |
20120238992 | ANCHORING APPARATUS AND METHODS FOR USE - An apparatus for securing an implantable lead within tissue of a patient includes a base adapted to be secured to a patient's skull adjacent a craniotomy. The base has an upper surface and a lower surface with a central passage therebetween. The central passage is adapted to receive the implantable lead therethrough. The apparatus also has a cover that is releasably coupled to the base so as to substantially cover the central passage and capture the implantable lead therebetween. A first rotating member is also coupled with the base and the first member is rotationally movable so as to meet and engage the implantable lead at a plurality of positions within the central passage. | 09-20-2012 |
Patent application number | Description | Published |
20130197424 | LEAD AND METHODS FOR BRAIN MONITORING AND MODULATION - An apparatus, a system and methods for modulating and monitoring tissue have an elongate member with proximal and distal ends and a plurality of annular stimulating electrodes axially arranged along the elongate member. The stimulating electrodes are disposed near the distal end and are adapted to pass current into tissue. At least one of the annular stimulating electrodes has at least three independent stimulation points on the electrode. The apparatus also includes a plurality of recording electrodes that are adapted to measure local tissue potentials and a plurality of conductors are coupled with the recording and stimulating electrodes. An optional multiple contact connecting terminal may be coupled with the conductors and is disposed near the proximal end of the elongate member. | 08-01-2013 |
20140074202 | ANCHORING APPARATUS AND METHODS FOR USE - An apparatus for securing an implantable lead within tissue of a patient includes a base adapted to be secured to a patient's skull adjacent a craniotomy. The base has an upper surface and a lower surface with a central passage therebetween. The central passage is adapted to receive the implantable lead therethrough. The apparatus also has a cover that is releasably coupled to the base so as to substantially cover the central passage and capture the implantable lead therebetween. A first rotating member is also coupled with the base and the first member is rotationally movable so as to meet and engage the implantable lead at a plurality of positions within the central passage. | 03-13-2014 |
20140088672 | DEVICES AND METHODS FOR TISSUE MODULATION AND MONITORING - A tissue stimulating device has an elongate member, a proximal annular stimulating region and a distal annular stimulating region. Each of the annular stimulating regions circumscribe the elongate member, and each has a plurality of independently energizable electrodes that deliver current into tissue. Adjacent electrodes in the annular stimulating regions are separated from one another by an insulating member. The annular stimulating regions are axially separated from one another by a gap. An internal electrical connector electrically couples a first electrode in the proximal annular stimulating region with a first electrode in the distal annular stimulating region. The first internal electrical connector is disposed within the elongate member, and extends across the gap between annular stimulating regions. A recording electrode is disposed in the gap and is adapted to record local tissue potentials from the tissue. | 03-27-2014 |
20140324117 | LEAD AND METHODS FOR BRAIN MONITORING AND MODULATION - An apparatus, a system and methods for modulating and monitoring tissue have an elongate member with proximal and distal ends and a plurality of annular stimulating electrodes axially arranged along the elongate member. The stimulating electrodes are disposed near the distal end and are adapted to pass current into tissue. At least one of the annular stimulating electrodes has at least three independent stimulation points on the electrode. The apparatus also includes a plurality of recording electrodes that are adapted to measure local tissue potentials and a plurality of conductors are coupled with the recording and stimulating electrodes. An optional multiple contact connecting terminal may be coupled with the conductors and is disposed near the proximal end of the elongate member. | 10-30-2014 |