Abstract: Disclosed herein is a screw-in lead implantable in the pericardium of a patient heart and a system for delivering such leads to an implantation location. The leads include a helical tip electrode and a curvate body including a defibrillator coil with improved contact between the defibrillator coil and the patient heart. The delivery system includes a delivery catheter and lead receiving sheath disposed within the catheter. A fixation tine is disposed on one of the delivery catheter and the lead receiving sheath such that the delivery system may be anchored into the pericardium during fixation of the screw-in lead. In certain implementations, an implantable sleeve receives the leads to bias the defibrillator coil against the patient heart.

Abstract: Disclosed herein is a screw-in lead implantable in the pericardium of a patient heart and a system for delivering such leads to an implantation location. The leads include a helical tip electrode and a curvate body including a defibrillator coil with improved contact between the defibrillator coil and the patient heart. The delivery system includes a delivery catheter and lead receiving sheath disposed within the catheter. A fixation tine is disposed on one of the delivery catheter and the lead receiving sheath such that the delivery system may be anchored into the pericardium during fixation of the screw-in lead. In certain implementations, an implantable sleeve receives the leads to bias the defibrillator coil against the patient heart.

Abstract: A manufacturing method for a header assembly for an implantable intracardiac device, wherein the header assembly comprises at least one tine extending from a conically formed base ring, further comprising a header cap and a header base, wherein the header cap and the header base each comprises a supporting side surface corresponding to the conical form of the base ring, the method comprising: an assembly step, wherein the base ring is placed between the header base and the header cap such that the base ring is located adjacent the supporting header base side surface and the supporting header cap side surface, and a subsequent fixing step, wherein the header cap is permanently fixed to the header base such that the base ring is located in a base ring groove formed by the supporting header cap side surface and the supporting header base side surface.

Abstract: A method/device for fixing an intracardiac device at an anchoring region within the tissue of a patient's heart which allows fixing at a thin wall. The intracardiac device comprises one electrode and at least two tines attached at a distal end of the intra-cardiac device adjacent the electrode. Each of the tines has an S-form. The method including: the intra-cardiac device is moved towards the anchoring region with the tines facing forwards until the tines touch the tissue at the anchoring region, the tines are pressed against the tissue at the anchoring region such that the tines are pivoted and/or bent outwards, with the distal ends of the tines penetrating the tissue, and, the pressure on the tines is against the tissue is removed, thereby bunching a wall segment of the tissue by the tines and pulling this wall segment towards the electrode.

Abstract: A manufacturing method for a header assembly for an implantable intracardiac device, wherein the header assembly comprises at least one tine extending from a conically formed base ring, further comprising a header cap and a header base, wherein the header cap and the header base each comprises a supporting side surface corresponding to the conical form of the base ring, the method comprising: an assembly step, wherein the base ring is placed between the header base and the header cap such that the base ring is located adjacent the supporting header base side surface and the supporting header cap side surface, and a subsequent fixing step, wherein the header cap is permanently fixed to the header base such that the base ring is located in a base ring groove formed by the supporting header cap side surface and the supporting header base side surface.

Abstract: Disclosed herein is a screw-in lead implantable in the pericardium of a patient heart and a system for delivering such leads to an implantation location. The leads include a helical tip electrode and a curvate body including a defibrillator coil with improved contact between the defibrillator coil and the patient heart. The delivery system includes a delivery catheter and lead receiving sheath disposed within the catheter. A fixation tine is disposed on one of the delivery catheter and the lead receiving sheath such that the delivery system may be anchored into the pericardium during fixation of the screw-in lead. In certain implementations, an implantable sleeve receives the leads to bias the defibrillator coil against the patient heart.

Abstract: Disclosed herein is a screw-in lead implantable in the pericardium of a patient heart and a system for delivering such leads to an implantation location. The leads include a helical tip electrode and a curvate body including a defibrillator coil with improved contact between the defibrillator coil and the patient heart. The delivery system includes a delivery catheter and lead receiving sheath disposed within the catheter. A fixation tine is disposed on one of the delivery catheter and the lead receiving sheath such that the delivery system may be anchored into the pericardium during fixation of the screw-in lead. In certain implementations, an implantable sleeve receives the leads to bias the defibrillator coil against the patient heart.

Abstract: A manufacturing method for a header assembly for an implantable intracardiac device, wherein the header assembly comprises at least one tine extending from a conically formed base ring, further comprising a header cap and a header base, wherein the header cap and the header base each comprises a supporting side surface corresponding to the conical form of the base ring, the method comprising: an assembly step, wherein the base ring is placed between the header base and the header cap such that the base ring is located adjacent the supporting header base side surface and the supporting header cap side surface, and a subsequent fixing step, wherein the header cap is permanently fixed to the header base such that the base ring is located in a base ring groove formed by the supporting header cap side surface and the supporting header base side surface.

Abstract: Implantable intracardiac device and a header assembly for such device having at least one tine extending from a base ring, further comprising a spacer and a header cap, wherein the base ring of the anchoring device is conically formed. The inventive intracardiac device has small dimensions and provides, at the same time, a robust attachment mechanism.

Abstract: Disclosed herein is a screw-in lead implantable in the pericardium of a patient heart and a system for delivering such leads to an implantation location. The leads include a helical tip electrode and a curvate body including a defibrillator coil with improved contact between the defibrillator coil and the patient heart. The delivery system includes a delivery catheter and lead receiving sheath disposed within the catheter. A fixation tine is disposed on one of the delivery catheter and the lead receiving sheath such that the delivery system may be anchored into the pericardium during fixation of the screw-in lead. In certain implementations, an implantable sleeve receives the leads to bias the defibrillator coil against the patient heart.

Abstract: An implantable medical device comprises a housing having a proximal end and a distal end, an electrode device arranged in the region of the distal end, and an anchoring device fixedly attached to the housing in the region of the distal end. The anchoring device comprises at least one anchoring member having a pre-shaped first configuration, the at least one anchoring member being deflectable from the pre-shaped first configuration into a strained second configuration for placement of the implantable medical device on an object. The at least one anchoring member comprises a tip section and a connection section extending in between the tip section and the distal end of the housing, wherein at least in the pre-shaped first configuration the tip section comprises a straight portion adjoining the connection section at a transition location by forming a bend in between the straight portion and the connection section.

Abstract: Disclosed herein is a screw-in lead implantable in the pericardium of a patient heart and a system for delivering such leads to an implantation location. The leads include a helical tip electrode and a curate body including a defibrillator coil with improved contact between the defibrillator coil and the patient heart. The delivery system includes a delivery catheter and lead receiving sheath disposed within the catheter. A fixation tine is disposed on one of the delivery catheter and the lead receiving sheath such that the delivery system may be anchored into the pericardium during fixation of the screw-in lead. In certain implementations, an implantable sleeve receives the leads to bias the defibrillator coil against the patient heart.