Abstract: A method includes advancing a delivery assembly through a patient's vasculature toward a native heart valve of the patient, wherein the delivery assembly comprises a first catheter assembly and a second catheter assembly extending through a shaft of the first catheter assembly, and wherein a support member is in an uncoiled, elongated configuration within a sheath of the first catheter assembly. The support member is deployed from the sheath by pushing the second catheter assembly distally relative to the first catheter assembly so that the support member is uncovered by the sheath and the support member extends around native chordae tendineae and native leaflets of the native heart valve. A prosthetic valve is implanted within the native leaflets of the native heart valve such that the native leaflets are frictionally engaged between the support member and the prosthetic valve.

Abstract: A method includes advancing a delivery assembly through a patient's vasculature toward a native heart valve of the patient, wherein the delivery assembly comprises a first catheter assembly and a second catheter assembly extending through a shaft of the first catheter assembly, and wherein a support member is in an uncoiled, elongated configuration within a sheath of the first catheter assembly. The support member is deployed from the sheath by pushing the second catheter assembly distally relative to the first catheter assembly so that the support member is uncovered by the sheath and the support member extends around native chordae tendineae and/or native leaflets of the native heart valve. A prosthetic valve is implanted within the native leaflets of the native heart valve such that the native chordae tendineae and/or native leaflets are frictionally engaged between the support member and the prosthetic valve.

Abstract: Methods for synchronizing the actions of a pulsatile cardiac assist device with a dysfunctional heart using a cardiac pacemaker. Aspects include receiving a signal from the pacemaker and actuating the pulsatile cardiac assist device in response to the signal from the pacemaker to either help push blood out of the heart during systole or to help suck blood from the atria during diastole.

Abstract: A method includes advancing a delivery assembly through a patient's vasculature toward a native heart valve of the patient, wherein the delivery assembly comprises a first catheter assembly and a second catheter assembly extending through a shaft of the first catheter assembly, and wherein a support member is in an uncoiled, elongated configuration within a sheath of the first catheter assembly. The support member is deployed from the sheath by pushing the second catheter assembly distally relative to the first catheter assembly so that the support member is uncovered by the sheath and the support member extends around native chordae tendineae and/or native leaflets of the native heart valve. A prosthetic valve is implanted within the native leaflets of the native heart valve such that the native chordae tendineae and/or native leaflets are frictionally engaged between the support member and the prosthetic valve.

Abstract: Disclosed herein are representative embodiments of methods, apparatus, and systems used to deliver a prosthetic heart valve to a deficient valve. In one embodiment, for instance, a support member is positioned to at least partially surround the native chordae tendineae and/or leaflets of a valve. The support member can comprise a flexible, distensible material to reduce abrasion and other mechanical damage to surrounding structures. A locking member may be used to couple both ends of the support member, forming a support ring. The support member may have two magnetic end portions which can be magnetically coupled to form a support ring. An expandable prosthetic heart valve can be delivered into the native heart valve and expanded within the support band, thereby causing one or more of the native chordae tendineae and/or leaflets of the native heart valve to be frictionally secured between the support ring and the expanded prosthetic heart valve.

Abstract: Methods for synchronizing the actions of a pulsatile cardiac assist device with a dysfunctional heart using a cardiac pacemaker. Aspects include receiving a signal from the pacemaker and actuating the pulsatile cardiac assist device in response to the signal from the pacemaker to either help push blood out of the heart during systole or to help suck blood from the atria during diastole.

Abstract: Disclosed herein are representative embodiments of methods, apparatus, and systems used to deliver a prosthetic heart valve to a deficient valve. In one embodiment, for instance, a support member is positioned to at least partially surround the native chordae tendineae and/or leaflets of a valve. The support member can comprise a flexible, distensible material to reduce abrasion and other mechanical damage to surrounding structures. A locking member may be used to couple both ends of the support member, forming a support ring. The support member may have two magnetic end portions which can be magnetically coupled to form a support ring. An expandable prosthetic heart valve can be delivered into the native heart valve and expanded within the support band, thereby causing one or more of the native chordae tendineae and/or leaflets of the native heart valve to be frictionally secured between the support ring and the expanded prosthetic heart valve.

Abstract: Disclosed herein are representative embodiments of methods, apparatus, and systems used to deliver a prosthetic heart valve to a deficient valve. In one embodiment, for instance, a support member is positioned to at least partially surround the native chordae tendineae and/or leaflets of a valve. The support member can comprise a flexible, distensible material to reduce abrasion and other mechanical damage to surrounding structures. A locking member may be used to couple both ends of the support member, forming a support ring. The support member may have two magnetic end portions which can be magnetically coupled to form a support ring. An expandable prosthetic heart valve can be delivered into the native heart valve and expanded within the support band, thereby causing one or more of the native chordae tendineae and/or leaflets of the native heart valve to be frictionally secured between the support ring and the expanded prosthetic heart valve.

Abstract: Disclosed herein are representative embodiments of methods, apparatus, and systems used to deliver a prosthetic heart valve to a deficient valve. In one embodiment, for instance, a support member is positioned to at least partially surround the native chordae tendineae and/or leaflets of a valve. The support member can comprise a flexible, distensible material to reduce abrasion and other mechanical damage to surrounding structures. A locking member may be used to couple both ends of the support member, forming a support ring. The support member may have two magnetic end portions which can be magnetically coupled to form a support ring. An expandable prosthetic heart valve can be delivered into the native heart valve and expanded within the support band, thereby causing one or more of the native chordae tendineae and/or leaflets of the native heart valve to be frictionally secured between the support ring and the expanded prosthetic heart valve.

Abstract: A diagnostic catheter having both a guidewire lumen and at least one contrast lumen is disclosed. In one embodiment, the contrast lumens allow the user to deliver contrast to a target area within the patient without removing the guidewire. Preferably, a plurality of contrast exit ports are included along the length of the catheter body to evenly and consistently distribute contrast into the blood stream, thereby providing improved visualization during radioscopy.