Abstract: A medical system including an implantable medical, the lead comprising a lead body and a helical electrode at least one of extending or extendable from a distal end of the lead body. The medical system including a hemostasis valve coupled to the lead body proximal the distal end of the lead body, the hemostasis valve configured to slide along the lead body. The distal end of the lead body is configured for insertion into an introducer hub positioned in an opening into a vasculature of a patient and the lead body configured for subsequent advancement through the introducer hub to facilitate securing the hemostasis value to the introducer hub. The hemostasis valve is configured for slidable advancement of the lead body therethrough for continued advancement of the lead body through the introducer hub.

Abstract: Systems, devices, and methods may be used to deliver and provide cardiac pacing therapy to a patient. Leads or leadlets carrying one or more left ventricular electrodes may be positioned in or near the interventricular septum to sense and pace left ventricular signals of the patient's heart. In one example, a leadlet including one or more left ventricular electrodes may extend in the coronary sinus from a leadless implantable medical device located in the right atrium.

Abstract: A connector for a medical device. The connector including an elongate body having a proximal end and a distal end. The connector further including a strut, a plurality of conductors, and a plurality of electrical contacts. The strut being disposed within the elongate body and defining a plurality of channels. Each of the plurality of channels having a proximal end and a distal end opposite the proximal end. The plurality of conductors being disposed within the elongate body and are sized and configured to be received within the plurality of channels and extend between the proximal end and the distal end. The plurality of electrical contacts being coupled to an outer surface of the elongate body and in communication with the plurality of conductors.

Abstract: A connector block for an implantable controller. The connector block includes a first pair of side-by-side bores extending distally from a proximal end of the connector block and defining a major longitudinal axis. A second pair of side-by-side bores extends distally from a distal end of the first pair of side-by-side bores, each of the first pair of side-by-side bores defining a first diameter and each of the second pair of side-by-side bores defining a second diameter less than the first diameter, each pair of the second pair of side-by-side lead bores include a setscrew bore sized to receive a setscrew and being transverse to the major longitudinal axis.

Abstract: Various embodiments of an implantable medical device and a method of implanting such device are disclosed. The device includes a housing having a first major surface, a second major surface, a sidewall that extends between the first major surface and the second major surface, and a port disposed in the sidewall. The sidewall defines a perimeter of the housing. The device further includes an electronic component disposed within the housing, and a cable electrically connected to the electronic component disposed within the housing, where the cable extends through the port. A portion of the cable is adapted to be removably connected to the housing adjacent an outer surface of the sidewall by a fastener such that the portion of the cable extends along at least a portion of the perimeter of the housing when the portion of the cable is removably connected to the housing.

Abstract: Systems, devices, and methods may be used to deliver and provide cardiac pacing therapy to a patient. Leads or leadlets carrying one or more left ventricular electrodes may be positioned in or near the interventricular septum to sense and pace left ventricular signals of the patient's heart. In one example, a leadlet including one or more left ventricular electrodes may extend in the coronary sinus from a leadless implantable medical device located in the right atrium.

Abstract: A conductor for connecting an electrode near a distal end of a medical electrical lead with an implantable medical device connected with a proximal end of the medical electrical lead includes a multi-filar coil wrapped around a central core. The multi-filar coil has an inductance of approximately 0.5 ?H or greater, and the central core is non-conducting and provides reinforcement for the multi-filar coil.

Abstract: A pressure sensor, in one embodiment, is passed through the atrial septal wall. A plurality of anchors is disposed on each side of the septal wall and secures the position of the pressure sensor. An inflatable deployment balloon is used to actuate the anchors.

Abstract: A pressure sensor, in one embodiment, is passed through the atrial septal wall. A plurality of anchors is disposed on each side of the septal wall and secure the position of the pressure sensor.

Abstract: A method and apparatus for introducing a cardiac lead to an implantation site that includes a catheter body having an outer wall and a distal leader and having a proximal portion extending from the first proximal end to a second distal end. An inner member is positioned within an outer lumen of the catheter body and is spaced from the outer wall to form a first inner lumen for receiving a guide tool inserted therein and a second lumen for receiving the cardiac lead while the guide tool is positioned within the first inner lumen. A distal end of the inner member forms a first opening at a distal end of the first inner lumen and a second opening at a distal end of the second inner lumen, the first opening and the second opening positioned proximal the distal leader.

Abstract: Guide catheters and methods of using same for facilitating implantation of cardiac leads for applying electrical stimulation to and/or sensing electrical activity of the heart through one or more electrode positioned at an implantation site within a heart chamber or cardiac vessel adjacent a heart chamber and more particularly to a method and apparatus for introducing such a cardiac lead having low torqueability and pushability through a pathway to enable attachment of the cardiac lead at the implantation site are disclosed. The catheter body comprises delivery lumen to introduce a small diameter cardiac lead and a guide lumen to receive a guide tool to locate the catheter body distal end at the implantation site. The small diameter lumen within a small diameter guide tube extends distally from the delivery exit port of the delivery lumen. The catheter body is shaped to bias the delivery lumen exit port toward the heart.

Abstract: An implantable lead includes a defibrillation electrode and a sensor coupled thereto. The electrode and sensor are positioned along a body of the lead such that, when a fixation element couples the lead to an endocardial surface of a right ventricle, the sensor is located in a high flow region and a portion of the defibrillation electrode is located in proximity to a right ventricular apex.

Abstract: A non-rigid tether extends distally from an electrode of a medical electrical lead body coupling a tissue anchor to the lead body. The tissue anchor includes a surface to receive a push force from an insertion tool adapted to insert the anchor within a segment of tissue so that the electrode is held in close proximity to the tissue.

Abstract: A lead body of a medical electrical lead includes a distal end, a first elongated insulated conductor extending toward the distal end and a first electrode coupled to the conductor. A second elongated insulated conductor includes a first portion extending within the lead body to the distal end and a second portion extending distally from the distal end of the lead body where it is terminated by a tissue anchor on which a second electrode is mounted; the tissue anchor includes a surface for receiving a push force from an insertion tool, which is adapted to insert the anchor within a segment of tissue such that the first electrode of the lead body is in close proximity to the segment of tissue.

Abstract: A method for making a conductive coated product comprising the steps of abrading a conductive metal substrate, applying to the conductive metal substrate a layer of a curable composition which includes 2-acrylamido-2-methylpropanesulfonic acid, water and/or alcohol, and a curing agent and curing the composition on the substrate.