Patent application number | Description | Published |
20080221629 | Lamination of Lithium Battery Elements for Implantable Medical Devices - A method includes the step of providing a sheet of lithium and a sheet of substrate material. The method further includes the step of pressing the sheet of lithium and the sheet of substrate material together in a die, the die having at least one surface that includes a plurality of force concentrating features configured to create regions of relatively higher pressure and regions of relatively lower pressure in at least one of the sheet of lithium and the sheet of substrate material. In another embodiment, a method includes the steps of providing a sheet of lithium material and a substrate material, and applying force to the sheet of lithium and the sheet of substrate material to form a plurality of protrusions on at least one of the sheet of lithium and the sheet of substrate material. The method includes the further step of pressing at least a portion of the sheet of lithium to the substrate material with sufficient force to at least partially deform the protrusions. | 09-11-2008 |
20080307621 | Method of Sealing a capacitor fill port - An apparatus comprising a capacitor stack, including one or more substantially planar anode layers, and one or more substantially planar cathode layers. Additionally, the capacitor has a case having a first opening and a second opening, the first opening sized for passage of the capacitor stack, and a cover substantially conforming to the first opening and sealingly connected to the first opening. Also, the capacitor includes a plate substantially conforming to the second opening and sealingly connected to the second opening, the plate defining an aperture. Additionally, the capacitor includes a plug substantially conforming to the aperture in the plate, the plug sealingly connected to the plate. The capacitor stack is disposed in the case, and the terminal is in electrical connection with the case and at least one capacitor electrode. | 12-18-2008 |
20090059472 | METHOD FOR INTERCONNECTING ANODES AND CATHODES IN A FLAT CAPACITOR - A method includes connecting together one or more anode connection members of one or more anode foils and one or more cathode connection members of one or more cathode foils and electrically isolating the one or more anode foils from the one or more cathode foils. A capacitor stack includes a plurality of cathode layers having cathode connection members and a plurality of anode layers having anode connection members. The anode connection members are connected to the cathode connection members and configured such that the anode layers can be electrically separated from the cathode layers by cutting only the anode connection members or the cathode connection members. | 03-05-2009 |
20110034980 | POLYMER COMPRESSION JOINING IN IMPLANTABLE LEAD - Implantable medical leads and methods of forming such leads are disclosed. An implantable medical lead includes a lead body, a swage base coupled to the lead body, and a polymeric member interposed at least in part between the swage base and at least one rigid component of the lead such as an electrode or annular ring. The swage base includes an annular-shaped body including a flange having a number of protrusions that extend radially outward from the flange. During a swaging process, the protrusions on the flange are compressed against the polymeric member, forming a number of channels in the member that mechanically bond the member to the swage base. | 02-10-2011 |
20110151332 | SYSTEM AND METHOD FOR SEALING BATTERY SEPARATOR - One embodiment of the present subject matter includes a battery having a stack of substantially planar battery electrodes, the stack including a first electrode including a first tab, and a second electrode including a second tab, with the first tab electrically connected to the second tab. The embodiment includes a first separator layer and a second separator layer sandwiching the first electrode, with the edges of the first separator layer and the second separator connected with a weld, the first separator layer and the second separator layer defining an interior space in which the first electrode is disposed, with the first tab extending outside the interior space. The embodiment includes a battery housing having electrolyte disposed therein, the housing including at least a first aperture and a feedthrough aperture; a lid conformed and sealed to the first aperture; and a feedthrough conformed and sealed to the feedthrough aperture. | 06-23-2011 |
20130131765 | FIBROUS MATRIX COATING MATERIALS - A medical electrical lead may include an insulative lead body, a conductor disposed within the insulative lead body, an electrode disposed on the insulative lead body and in electrical contact with the conductor and a fibrous matrix disposed at least partially over the electrode. The fibrous matrix may be formed from a polyisobutylene urethane, urea or urethane/urea copolymer. | 05-23-2013 |
20140075753 | IMPLANTABLE LEADS WITH A CONDUCTOR COIL HAVING TWO OR MORE SECTIONS - Various coiled conductors having two or more sections and methods and devices for constructing such conductors are disclosed. The various embodiments of coiled conductors and related methods include two or more sections that can have different mechanical, structural, and/or electrical characteristics. | 03-20-2014 |
20140268499 | FLAT CAPACITOR FOR AN IMPLANTABLE MEDICAL DEVICE - One aspect provides a capacitor feedthrough assembly having an electrically conductive member dimensioned to extend at least partially through a feedthrough hole of a case of the capacitor, the conductive member having a passage therethrough. | 09-18-2014 |
20150025612 | SYSTEM AND METHODS FOR CHRONIC FIXATION OF MEDICAL DEVICES - Devices or methods such as for stimulating excitable tissue or sensing physiologic response or other signals that can use chronic fixation mechanism are described. An implantable apparatus can comprise an electrostimulation electrode assembly that can include a primary fixation member and a secondary fixation member. The primary fixation member can be actively engaged or affixed to a target tissue of a patient, and the second fixation member can be biased against the target tissue, collapsed or compressed against the target tissue when the primary fixation member is affixed to the target tissue. The electrostimulation electrode assembly can also include at least one electrode such as to contact heart or other excitable tissue such as to deliver chronic electrostimulation or sensing physiologic responses. | 01-22-2015 |
20150045774 | DEVICES AND METHODS FOR TREATING A LUNG - Exemplary embodiments of devices and methods for treating a lung including, for example, treatments for chronic obstructive pulmonary disease are disclosed. A device may include a plurality of media and a deployment member. The media may be configured for deployment into one or more airways of a lung. The deployment member may be configured for insertion into or proximate the one or more airways of the lung. Also, the deployment member may be configured to deploy the plurality of media substantially simultaneously. Further, the plurality of media may be configured to be retained within the one or more airways of the lung. | 02-12-2015 |
20150051609 | LEADLESS CARDIAC PACEMAKER AND RETRIEVAL DEVICE - A retrieval device and an associated implantable cardiac pacing device. The retrieval device includes a retrieval catheter and a snare advanceable from the distal end of the retrieval catheter. The snare has a loop configured to be coupled to the docking member to draw the implantable cardiac pacing device into the lumen of the retrieval catheter. The retrieval catheter includes a retention feature in the lumen configured to engage the head portion of the docking member to facilitate retention of the implantable cardiac pacing device in the lumen after drawing the implantable cardiac pacing device into the lumen of the retrieval catheter with the snare. | 02-19-2015 |
20150051610 | LEADLESS CARDIAC PACEMAKER AND RETRIEVAL DEVICE - A retrieval device and an associated implantable cardiac pacing device. The retrieval device includes a grasping mechanism configured to capture a docking member of the implantable cardiac pacing device to draw the implantable cardiac pacing device into the lumen of a retrieval catheter. The grasping mechanism is expandable from a first position to a second position and is biased toward the first position in an equilibrium condition. The grasping mechanism is configured to surround and pass over a head portion of the docking member in the second position, and be contracted toward the first position to capture the docking member with the grasping mechanism. | 02-19-2015 |
20150051611 | LEADLESS CARDIAC PACEMAKER WITH DELIVERY AND/OR RETRIEVAL FEATURES - An implantable leadless cardiac pacing device and associated delivery and retrieval devices. The implantable device includes a docking member extending from the proximal end of the housing of the implantable device configured to engage with the delivery and/or retrieval device to facilitate delivery and/or retrieval of the implantable leadless cardiac pacing device. | 02-19-2015 |
20150051612 | LEADLESS CARDIAC PACING DEVICES - Implantable leadless pacing devices and medical device systems including an implantable leadless pacing device are disclosed. An example implantable leadless pacing device may include a pacing capsule. The pacing capsule may include a housing. The housing may have a proximal region and a distal region. A first electrode may be disposed along the distal region. An anchoring member may be coupled to the distal region. One or more anti-rotation members may be fixedly attached to the distal region. | 02-19-2015 |
20150051613 | DELIVERY DEVICES AND METHODS FOR LEADLESS CARDIAC DEVICES - Delivery devices, systems, and methods for delivering an implantable leadless pacing device having an outer peripheral surface are disclosed. An example delivery device may include a proximal section including a distal end, and a distal holding section extending distally of a distal end of the proximal section. The distal holding section defines a cavity therein for receiving the implantable leadless pacing device, and may be configured to apply a holding force to the implantable leadless pacing device. In some cases, the distal holding section may be configured to apply a compressive force to the outer peripheral surface of the leadless pacing device when the leadless pacing device is disposed in the cavity. | 02-19-2015 |
20150051614 | LEADLESS CARDIAC PACING DEVICES - Implantable leadless pacing devices and medical device systems including an implantable leadless pacing device are disclosed. An example implantable leadless pacing device may include a pacing capsule. The pacing capsule may include a housing. The housing may have a proximal region and a distal region. A first electrode may be disposed along the distal region. An anchoring member may be coupled to the distal region. One or more anti-rotation members may be fixedly attached to the distal region. | 02-19-2015 |
20150051615 | DELIVERY DEVICES AND METHODS FOR LEADLESS CARDIAC DEVICES - Delivery devices, systems, and methods for delivering implantable leadless pacing devices are disclosed. An example delivery device may include a proximal section including a deflection mechanism for deflecting the proximal section, and a distal holding section extending distally of a distal end of the proximal section and defining a cavity therein for receiving an implantable leadless pacing device. The delivery device may include more than one deflection mechanism for deflecting the proximal section at multiple deflection regions. The delivery device may include more than one tubular member that are translatable relative to one another, and the one or more tubular members may include fixed curve portions. The delivery device may include an atraumatic or bumper tip at the distal end of the holding section. | 02-19-2015 |
20150051682 | LEADLESS CARDIAC PACEMAKER WITH DELIVERY AND/OR RETRIEVAL FEATURES - An implantable leadless cardiac pacing device and associated delivery and retrieval devices. The implantable device includes a docking member extending from the proximal end of the housing of the implantable device configured to engage with the delivery and/or retrieval device to facilitate delivery and/or retrieval of the implantable leadless cardiac pacing device. | 02-19-2015 |
20150057520 | FIXATION MECHANISM ASSEMBLY AND METHOD FOR IMPLANTABLE DEVICES - Fixation mechanism assemblies and methods are disclosed. A fixation mechanism assembly can include a first fixation member and a second fixation member moveably engaged with the first fixation member. The first fixation member can include a housing having a tissue facing surface and an opposing non-tissue facing surface, one or more guide apertures extending between the tissue facing surface and the non-tissue facing surface, and one or more first fixation elements. The first fixation member includes a longitudinal body and a proximal end attached to, or integrated with, the tissue facing surface of the housing. The second fixation member can include one or more second fixation elements. The second fixation element can correspond to a guide aperture and includes a longitudinal body, a proximal end attached to, or integrated with, the second fixation member, and a distal end movable through the corresponding guide aperture. | 02-26-2015 |