Abstract: A lead having a distal end electrode assembly adapted for implantation on or about the heart or within a vein and for connection to a system for monitoring or stimulating cardiac activity. The electrode assembly includes conductive fixation features, such as conductive tines or flexible members, in combination with non-conductive fixation features. The conductive fixation features also include tines coated with a conductive material. The fixation features further include conductive tines which are retractable. A defibrillation coil is optionally disposed at the distal end of the lead in combination with the conductive tines.

Abstract: A lead comprising both a main lead and a transverse lead. The main lead includes a main lead body with a longitudinal axis and at least one electrode. The Transverse lead includes a transverse lead body and at least one electrode, where the transverse lead body extends laterally from the main lead body and curves around the longitudinal axis of the main lead body to partially encircle at least a portion of the main lead. In one embodiment, the transverse lead is adapted to press the at least one electrode on the transverse lead against endocardial tissue. At least a portion of the main lead and at least a portion of the transverse lead are both adapted to be housed within and pass through an implant catheter. In an alternative embodiment, there is a lead system which comprises a first lead and a second lead, where the second lead includes a sleeve, where the first lead is adapted to move through the sleeve to attach the first lead to the second lead.

Abstract: A lead having a distal end electrode assembly adapted for implantation on or about the heart or within a vein and for connection to a system for monitoring or stimulating cardiac activity. The electrode assembly includes conductive fixation features, such as conductive tines or flexible members, in combination with non-conductive fixation features. The conductive fixation features also include tines coated with a conductive material. The fixation features further include conductive tines which are retractable. A defibrillation coil is optionally disposed at the distal end of the lead in combination with the conductive tines.

Abstract: A lead assembly having a push-extendable active fixation mechanism. As the terminal end of the lead is pushed, the active fixation element extends from the lead body to a predetermined extension length. Optionally, a seal is formed at the distal end when the terminal is pushed and the terminal moves axially. A further option includes providing a snap fit connection with the terminal when the terminal end is pushed and the active fixation element is fully extended.

Abstract: A tubular, suture sleeve to efficiently position and secure an implantable lead is disclosed. The sleeve comprises an outside surface and an inner lumen traversing the length of the sleeve. The outside surface comprises at least one circumferential groove adapted to receive a suture. The inner lumen comprises a star-like shaped or grooved bore. The unique shape of the lumen allows a surgeon to smoothly and easily slide the sleeve along the longitudinal axis of an implantable lead and reduces the risk of cutting through the sleeve and damaging the lead when securing the sleeve to the lead with a suture.

Abstract: A lead comprising both a main lead and a transverse lead. The main lead includes a main lead body with a longitudinal axis and at least one electrode. The Transverse lead includes a transverse lead body and at least one electrode, where the transverse lead body extends laterally from the main lead body and curves around the longitudinal axis of the main lead body to partially encircle at least a portion of the main lead. In one embodiment, the transverse lead is adapted to press the at least one electrode on the transverse lead against endocardial tissue. At least a portion of the main lead and at least a portion of the transverse lead are both adapted to be housed within and pass through an implant catheter. In an alternative embodiment, there is a lead system which comprises a first lead and a second lead, where the second lead includes a sleeve, where the first lead is adapted to move through the sleeve to attach the first lead to the second lead.

Abstract: A lead assembly having a push-extendable active fixation mechanism. As the terminal end of the lead is pushed, the active fixation element extends from the lead body to a predetermined extension length. Optionally, a seal is formed at the distal end when the terminal is pushed and the terminal moves axially. A further option includes providing a snap fit connection with the terminal when the terminal end is pushed and the active fixation element is fully extended.

Abstract: A lead comprising both a main lead and a transverse lead. The main lead includes a main lead body with a longitudinal axis and at least one electrode. The Transverse lead includes a transverse lead body and at least one electrode, where the transverse lead body extends laterally from the main lead body and curves around the longitudinal axis of the main lead body to partially encircle at least a portion of the main lead. In one embodiment, the transverse lead is adapted to press the at least one electrode on the transverse lead against endocardial tissue. At least a portion of the main lead and at least a portion of the transverse lead are both adapted to be housed within and pass through an implant catheter. In an alternative embodiment, there is a lead system which comprises a first lead and a second lead, where the second lead includes a sleeve, where the first lead is adapted to move through the sleeve to attach the first lead to the second lead.

Abstract: A lead having a distal end electrode assembly adapted for implantation on or about the heart or within a vein and for connection to a system for monitoring or stimulating cardiac activity. The electrode assembly includes conductive fixation features, such as conductive tines or flexible members, in combination with non-conductive fixation features. The conductive fixation features also include tines coated with a conductive material. The fixation features further include conductive tines which are retractable. A defibrillation coil is optionally disposed at the distal end of the lead in combination with the conductive tines.

Abstract: An apparatus for elution of drugs and radiographic visualization that is formed from a polymeric material mixed with a drug and a radiopaque material. The drug and radiopaque material are dispersed through the polymer and the combination is formed into a solid shape having structural integrity.

Abstract: A lead having a distal end electrode assembly adapted for implantation on or about the heart or within a vein and for connection to a system for monitoring or stimulating cardiac activity. The electrode assembly includes conductive fixation features, such as conductive tines or flexible members, in combination with non-conductive fixation features. The conductive fixation features also include tines coated with a conductive material. The fixation features further include conductive tines which are retractable. A defibrillation coil is optionally disposed at the distal end of the lead in combination with the conductive tines.

Abstract: A lead having a distal end electrode assembly adapted for implantation on or about the heart or within a vein and for connection to a system for monitoring or stimulating cardiac activity. The electrode assembly includes conductive fixation features, such as conductive tines or flexible members, in combination with non-conductive fixation features. The conductive fixation features also include tines coated with a conductive material. The fixation features further include conductive tines which are retractable. A defibrillation coil is optionally disposed at the distal end of the lead in combination with the conductive tines.