Leadless pacemaker with radial fixation mechanism
First Claim
1. A leadless cardiac pacemaker, comprising:
- a hermetic housing;
a pacing electrode disposed on a distal portion of the housing, the electrode comprising an atraumatic surface not configured to penetrate heart tissue;
an electronics package disposed in the housing; and
a fixation mechanism located a distance from the pacing electrode and disposed on the distal portion of the housing, the fixation mechanism comprising a helix having a longitudinal length,wherein the helix is configured to pierce an endocardium layer of the patient'"'"'s heart and to rotate into a myocardium layer of the patient'"'"'s heart, the helix remaining in contact with the endocardium layer of the heart and the pacing electrode being placed into contact with the patient'"'"'s heart tissue when the helix is fully rotated into the heart tissue, andwherein the helix comprises a constant diameter and is positioned about the pacing electrode to at least partially surround the pacing electrode so that the electrode does not contact tissue of the patient'"'"'s heart that is irritated due to fixation trauma.
2 Assignments
0 Petitions
Accused Products
Abstract
A leadless cardiac pacemaker having a radial fixation mechanism is provided. The cardiac pacemaker can include fixation mechanism separate from a pacing electrode and having a diameter equal to or less than the outer diameter of the pacemaker. The fixation mechanism can allow the pacemaker to be inserted into tissue with less than 2 rotations of the pacemaker to place the pacing electrode in contact with the tissue. In some embodiments, the fixation mechanism can comprise a plurality of hooks or protrusions positioned near a distal portion of the pacemaker. The fixation mechanism(s) can be configured to penetrate the endocardium of the patient and reside mostly within the myocardium. Methods of delivering the leadless cardiac pacemaker into the heart are also provided.
-
Citations
26 Claims
-
1. A leadless cardiac pacemaker, comprising:
-
a hermetic housing; a pacing electrode disposed on a distal portion of the housing, the electrode comprising an atraumatic surface not configured to penetrate heart tissue; an electronics package disposed in the housing; and a fixation mechanism located a distance from the pacing electrode and disposed on the distal portion of the housing, the fixation mechanism comprising a helix having a longitudinal length, wherein the helix is configured to pierce an endocardium layer of the patient'"'"'s heart and to rotate into a myocardium layer of the patient'"'"'s heart, the helix remaining in contact with the endocardium layer of the heart and the pacing electrode being placed into contact with the patient'"'"'s heart tissue when the helix is fully rotated into the heart tissue, and wherein the helix comprises a constant diameter and is positioned about the pacing electrode to at least partially surround the pacing electrode so that the electrode does not contact tissue of the patient'"'"'s heart that is irritated due to fixation trauma.
-
-
2. A leadless cardiac pacemaker, comprising:
-
a hermetic housing; a pacing electrode disposed on a distal portion of the housing, the electrode comprising an atraumatic surface; an electronics package disposed in the housing; and a fixation mechanism separated from the pacing electrode and disposed on the distal portion of the housing, the fixation mechanism comprising a helix having a longitudinal length, wherein the helix is configured to pierce an endocardium layer of the patient'"'"'s heart and to screw into a myocardium layer of the patient'"'"'s heart, the helix remaining in contact with the endocardium layer of the heart and the pacing electrode being placed into contact with the patient'"'"'s heart tissue at a stimulation site when the fixation mechanism is fully screwed into a fixation site, and wherein the helix comprises a constant diameter and is positioned about the pacing electrode to at least partially surround the pacing electrode so that the electrode does not contact tissue of the patient'"'"'s heart that is irritated due to the fixation mechanism when the fixation mechanism is fully screwed into the fixation site. - View Dependent Claims (3, 4, 5, 6, 7)
-
-
8. A leadless cardiac pacemaker, comprising:
-
a hermetic housing; a pacing electrode disposed on a distal portion of the housing; an electronics package disposed in the housing; and a fixation mechanism separate from the pacing electrode and disposed on the distal portion of the housing, the fixation mechanism comprising a helix having a longitudinal length, wherein the helix is configured to penetrate the endocardium layer of the patient'"'"'s heart and rotate into a myocardium layer of the patient'"'"'s heart, the helix configured to remain in contact with the endocardium layer of the heart when the helix is fully screwed into cardiac tissue, wherein the helix comprises a constant diameter and is positioned about the pacing electrode to at least partially surround the pacing electrode so that that the helix secures to the cardiac tissue at a fixation site that is separate and decoupled from a stimulation site contacted by the pacing electrode, wherein the pacing electrode comprises a dome shape having an atraumatic surface. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
-
-
20. A leadless cardiac pacemaker, comprising:
-
a hermetic housing; a pacing electrode disposed on a distal portion of the housing, the pacing electrode comprising a dome shape having an atraumatic surface; an electronics package disposed in the housing; and a fixation mechanism separate from the pacing electrode and disposed on the distal portion of the housing, the fixation mechanism comprising a helix configured to penetrate the endocardium layer of the patient'"'"'s heart and rotate into a myocardium layer of the patient'"'"'s heart, the helix configured to remain in contact with the endocardium layer of the heart when the helix is fully screwed into cardiac tissue, wherein a smallest diameter of the helix is greater than a diameter of the pacing electrode, and wherein the helix is positioned about the pacing electrode to at least partially surround the pacing electrode so that that the helix secures to the cardiac tissue at a fixation site that is separate and decoupled from a stimulation site contacted by the pacing electrode. - View Dependent Claims (21, 22)
-
-
23. A leadless cardiac pacemaker, comprising:
-
a hermetic housing; a pacing electrode disposed on a distal portion of the housing, the electrode comprising an atraumatic surface not configured to penetrate heart tissue; an electronics package disposed in the housing; and a fixation mechanism located a distance from the pacing electrode and disposed on the distal portion of the housing, the fixation mechanism comprising a helix, wherein the helix is configured to pierce an endocardium layer of the patient'"'"'s heart and to rotate into a myocardium layer of the patient'"'"'s heart, the helix remaining in contact with the endocardium layer of the heart and the pacing electrode being placed into contact with the patient'"'"'s heart tissue when the helix is fully rotated into the heart tissue, and wherein the helix comprises a constant diameter equal to a constant diameter of the distal portion of the housing, and is positioned about the pacing electrode to at least partially surround the pacing electrode so that the electrode does not contact tissue of the patient'"'"'s heart that is irritated due to fixation trauma. - View Dependent Claims (24, 25)
-
-
26. A leadless cardiac pacemaker, comprising:
-
a hermetic housing; a pacing electrode disposed on a distal portion of the housing, the electrode comprising an atraumatic surface, the distal portion of the housing comprising a flat surface adjoining and surrounding the pacing electrode, and the distal portion of the housing further comprising a rounded edge adjoining and surrounding the flat surface; an electronics package disposed in the housing; and a fixation mechanism separated from the pacing electrode and disposed on the distal portion of the housing, the fixation mechanism comprising a helix, wherein the helix is configured to pierce an endocardium layer of the patient'"'"'s heart and to screw into a myocardium layer of the patient'"'"'s heart, the helix remaining in contact with the endocardium layer of the heart and the pacing electrode being placed into contact with the patient'"'"'s heart tissue at a stimulation site when the fixation mechanism is fully screwed into a fixation site, and wherein the helix comprises a constant diameter and is positioned about the pacing electrode to at least partially surround the pacing electrode so that the electrode does not contact tissue of the patient'"'"'s heart that is irritated due to the fixation mechanism when the fixation mechanism is fully screwed into the fixation site.
-
Specification