Abstract: A system includes a magnetic field transmitter assembly. The magnetic field transmitter assembly includes an enclosure, a magnet positioned within the enclosure, and a plurality of coils wrapped around the enclosure. The plurality of coils are configured to be energized to rotate the magnet In certain embodiments, the plurality of coils include a first set of windings and a second set of windings where the first set of windings is configured to generate a first magnetic field in a first direction and where the second set of windings is configured to generate a second magnetic field in a second direction different than the first direction.

Abstract: A position sensor assembly includes a base member having a proximal portion, a distal portion, and an intermediate portion disposed therebetween and having a twisted configuration such that the proximal and distal portions are oriented in mutually orthogonal planes. At least first and second magnetic field sensors each including at least one magnetic field sensing element are disposed, respectively, on the proximal and distal portions of the base member. The base member further includes a first base member element defining the proximal portion of the base member, and a second base member element defining the distal portion of the base member, the first and second base member elements being electrically and mechanically connected at a joint.

Abstract: Various embodiments concern an implantable lead having a coil electrode, configured to deliver defibrillation therapy, made from filars wound in a helical pattern to have a pitch. An end of the coil electrode can be received within a lumen of a tubular fitting, the lumen having threading that corresponds to the pitch of the filars. A wall of a polymer sleeve extending over the coil electrode can be pinched between the threading of the lumen and the filars to mechanically couple the polymer sleeve to the tubular fitting. The polymer sleeve can be porous to permit delivery of the defibrillation through the wall to tissue. Reception of the polymer sleeve within the lumen of the tubular fitting can allow the entire coil electrode to be within the polymer sleeve to prevent direct contact between tissue and the coil electrode.

Abstract: Various embodiments concern a lead comprising a cable conductor and a coil electrode having one or more filars, the one or more filars wound in a helical pattern. The lead can further include an inner fitting axially aligned with the coil electrode. The inner fitting can comprise external threading and a slot extending along the inner fitting. The slot can receive a portion of the cable conductor. The lead can include an outer tubular fitting having a lumen with internal threading. Each of the coil electrode and the inner fitting can be partially received within the lumen, both of the external threading and the one or more filars threadedly engaged with the internal threading. The cable conductor can be pinched in the slot to mechanically connect the cable conductor to the inner fitting. The pinching can be supported by the outer tubular fitting.

Abstract: Various embodiments concern a lead comprising a cable conductor and a coil electrode having one or more filars, the one or more filars wound in a helical pattern. The lead can further include an inner fitting axially aligned with the coil electrode. The inner fitting can comprise external threading and a slot extending along the inner fitting. The slot can receive a portion of the cable conductor. The lead can include an outer tubular fitting having a lumen with internal threading. Each of the coil electrode and the inner fitting can be partially received within the lumen, both of the external threading and the one or more filars threadedly engaged with the internal threading. The cable conductor can be pinched in the slot to mechanically connect the cable conductor to the inner fitting. The pinching can be supported by the outer tubular fitting.

Abstract: Various embodiments concern a lead comprising a cable conductor and a coil electrode having one or more filars, the one or more filars wound in a helical pattern. The lead can further include an inner fitting axially aligned with the coil electrode. The inner fitting can comprise external threading and a slot extending along the inner fitting. The slot can receive a portion of the cable conductor. The lead can include an outer tubular fitting having a lumen with internal threading. Each of the coil electrode and the inner fitting can be partially received within the lumen, both of the external threading and the one or more filars threadedly engaged with the internal threading. The cable conductor can be pinched in the slot to mechanically connect the cable conductor to the inner fitting. The pinching can be supported by the outer tubular fitting.

Abstract: Various embodiments concern a lead comprising a cable conductor and a coil electrode having one or more filars, the one or more filars wound in a helical pattern. The lead can further include an inner fitting axially aligned with the coil electrode. The inner fitting can comprise external threading and a slot extending along the inner fitting. The slot can receive a portion of the cable conductor. The lead can include an outer tubular fitting having a lumen with internal threading. Each of the coil electrode and the inner fitting can be partially received within the lumen, both of the external threading and the one or more filars threadedly engaged with the internal threading. The cable conductor can be pinched in the slot to mechanically connect the cable conductor to the inner fitting. The pinching can be supported by the outer tubular fitting.

Abstract: Various embodiments concern an implantable lead having a coil electrode, configured to deliver defibrillation therapy, made from filars wound in a helical pattern to have a pitch. An end of the coil electrode can be received within a lumen of a tubular fitting, the lumen having threading that corresponds to the pitch of the filars. A wall of a polymer sleeve extending over the coil electrode can be pinched between the threading of the lumen and the filars to mechanically couple the polymer sleeve to the tubular fitting. The polymer sleeve can be porous to permit delivery of the defibrillation through the wall to tissue. Reception of the polymer sleeve within the lumen of the tubular fitting can allow the entire coil electrode to be within the polymer sleeve to prevent direct contact between tissue and the coil electrode.

Abstract: An implantable lead may include a coupler, a fixation helix secured to the coupler and a guide element that includes an engaging surface and a proximal bearing surface. The engaging surface may be configured to engage the fixation helix such that the engaging surface of the guide element interacts with the fixation helix to cause the fixation helix to translate longitudinally when the fixation helix is rotated against the engaging surface. Longitudinal translation of the coupler and fixation helix may be limited by the distal end of the coupler contacting the proximal bearing surface of the guide element.