Systems and methods for cardiac pacing are provided, where a pacing lead is placed at or near the bundle of His. A method for pacing a heart of a patient comprises: introducing a sheath to vasculature of the patient; steering the sheath within a coronary sinus in the heart to lodge a distal end of the sheath to a target location proximal to the bundle of His above a septum separating a left ventricle and a right ventricle of the heart; advancing a pacing lead through a lumen of the sheath to the target location; coupling the pacing lead to cardiac tissue at the target location; removing the sheath; and electrically pacing the bundle of His using the pacing lead.

A system and method of implanting pacing lead in a patient's heart. The system may include a catheter configured to by inserted through the coronary sinus ostium such that the distal end region of the catheter is positioned past the anterolateral vein and proximate at least one septal perforating vein. The catheter is configured to inject contrast proximate the septal perforating vein to identify an implant region for a pacing lead. Further, a controller is configured to deliver pacing therapy to the implant region.

An atrial flutter identification method includes placing a catheter comprising multiple electrodes in a coronary sinus (CS) of a heart of a patient, so that some of the electrodes overlap a left atrium (LA) of the heart and some of the electrodes overlap a right atrium (RA) of the heart. Intra cardiac (IC) electrophysiological (EP) signals are acquired with the electrodes. Respective signal-stability measures are estimated over the signals acquired by the electrodes overlapping the LA and over the signals acquired by the electrodes overlapping the RA. When one of the signal-stability measures is above a first threshold while the other of the signal-stability measures is below a second threshold, an atrium is indicated, that corresponds to a highest among the signal-stability measures as a source of atrial flutter.

Provided herein are systems for stimulating cardiac tissue of a patient. The systems include: a pulse generator having a first transmission element for delivering wireless power; a stimulation assembly having a flexible substrate, a second transmission element for receiving the wireless power from the first transmission element of the pulse generator, one or more electrodes attached to the substrate for delivering electrical energy to cardiac tissue, and one or more microcircuits attached to the substrate for delivering electrical energy to the one or more electrodes; and an algorithm having a fibrillation detection algorithm for determining when the one or more electrodes deliver the energy to the cardiac tissue.

A medical electrical lead and methods of implanting medical electrical leads in lumens. Leads in accordance with the invention employ preformed biases to stabilize the lead within a lumen or lumen and to provide feedback to lead implanters.

A pacemaker lead for cerclage pacing includes a lead fixing part including a fixing tip whose diameter becomes gradually smaller toward an end of a distal part thereof, a plurality of bipolar electrodes that come into close contact with heart muscle, in an outer circumference of the lead fixing part, and a guide wire insertion through hole through which a guide wire can be inserted thereinto, a lead body part configured to be extended to the lead fixing part, having a stylet insertion through hole formed therein, and a body fixing part formed in a bent shape so as to be fixed to an inner wall of the coronary sinus, and a stylet inserted into the stylet insertion through hole, enabling the pacemaker lead for cerclage pacing to be easily moved within the body of the patient.

Devices and methods for treating tricuspid regurgitation (TR) are provided. A clasp or clamp is used to anchor a TR-treatment device to an existing lead of a pacemaker or an implantable cardioverter defibrillator (ICD) that passes through the tricuspid valve. The TR-treatment device can be a balloon occluder that is adjustable by filling or withdrawing filler material from the occluder through a proximal port implanted in the skin of the patient.

An implantable medical device (IMD) may include a housing having a proximal end and a distal end and a set of one or more electrodes connected to but spaced apart from the housing. The IMD may further include a controller disposed within the housing, wherein the controller is configured to sense cardiac electrical signals, and deliver electrical stimulation pulses via the first set of one or more electrodes. In some embodiments, a first portion of the housing is configured to be disposed at least partly within a coronary sinus of a patient's heart and a second portion of the housing is configured to be disposed at least partly within a right atrium of the patient's heart.

In one embodiment, the present invention relates to a tissue shaping device adapted to be disposed in a vessel near a patient's heart to reshape the patient's heart. Such tissue shaping device can include an expandable proximal anchor; a proximal anchor lock adapted to lock the proximal anchor in an expanded configuration; an expandable distal anchor; a distal anchor lock adapted to lock the distal anchor in an expanded configuration; and a connector disposed between the proximal anchor and the distal anchor, the connector having a substantially non-circular cross-section.

A method for selecting an implantation position of a pacing electrode of a pacing lead within an anatomical region of a body, comprising measuring values of at least one parameter of an anatomical region surrounding the pacing lead in at least one location. The method also comprises delivering an electric field to a tissue of the anatomical region, and measuring values of at least one parameter of the tissue surrounding the pacing lead in the at least one location after said delivering. The method further comprises determining changes in said measured values before and after said delivering and selecting an implantation position for the pacing electrode based on said determined changes.