Circulatory assistance device for a heart of a living being, including a cuff for periodically applying pressure to the heart by at least one dielectric elastomer membrane which is controllable by a control device in synchronization with a cardiac beat in order to convey blood in pulses, wherein the cuff is designed to be pulled over the outside of the heart and for this purpose has an inner shape that is adapted to the outer contour of the heart at least in the region outside the ventricles, wherein the cuff is composed of an outer contraction layer including the dielectric elastomer membrane and an inner padding layer, and the inner padding layer is filled with an incompressible liquid and has at least one outlet valve, which is closed in a normal state and opened in an emergency state.

Devices and methods for providing localized pressure to a region of a patient's heart to improve heart functioning, including: (a) a jacket made of a flexible biocompatible material, the jacket having an open top end that is received around the heart and a bottom portion that is received around the apex of the heart; and (b) at least one inflatable bladder disposed on an interior surface of the jacket, the inflatable bladder having an inelastic outer surface positioned adjacent to the jacket and an elastic inner surface such that inflation of the bladder causes the bladder to deform substantially inwardly to exert localized pressure against a region of the heart.

An implant system for restoring and improving physiological intracardiac flow in a human heart is provided including a force transducting, structurally stabilizing, and functionally assisting ventricular inflatable cardiac implant within a human heart for restoring and improving physiologic intracardiac flow, restoring the ventricular vortex, preventing atrioventricular pressure gradient loss, mitigating valvular regurgitation, and utilizing native energy and force, via force transduction, to restore geometric elliptical proportion and function to the atria, the ventricles and ventricular walls, and the valvular apparatus itself.

An elongated actuator including: an elongated inner tube for carrying a pressurized actuation fluid; a helical coil wrapped around the elongated inner tube; wherein the actuator undergoes actuation by means of pressure fluctuations in the elongated inner tube.

An access device for a heart chamber, a removable hemostatic valve unit, and a system including a cardiac assist unit are disclosed. In examples, the access device) includes an apical base plate and a sealing unit configured to provide a separation of a wet zone from a heart chamber and a dry zone with a gaseous environment outside of said heart chamber inside a patient body at the same time.

Methods and devices that prevent stasis in the LAA by either increasing the flow through the LAA or by closing off or sealing the LAA. Increasing the flow is accomplished through shunts, flow diverters, agitators, or by increasing the size of the ostium. Closing off the LAA is accomplished using seals or by cinching the LAA.

The present invention provides a direct cardiac compression device comprising one or more passive chambers that taper from an aperture to an apex; one or more inflatable active pockets individually independently inflatable, wherein each of the one or more inflatable active pockets is connected to the one or more passive chambers at least partially from the aperture to the apex and wherein the each of the one or more inflatable active pockets does not tension the adjacent one or more inflatable active pockets upon inflation; and a frame in contact with the one or more active chambers to at least partially surround the one or more active pockets.

The present invention provides a direct cardiac compression device comprising one or more passive chambers that taper from an aperture to an apex; one or more inflatable active pockets individually independently inflatable, wherein each of the one or more inflatable active pockets is connected to the one or more passive chambers at least partially from the aperture to the apex and wherein the each of the one or more inflatable active pockets does not tension the adjacent one or more inflatable active pockets upon inflation; and a frame in contact with the one or more active chambers to at least partially surround the one or more active pockets.

A cardiac device for implantation proximate an exterior of a heart, the cardiac device including an inflatable bladder including an inner wall and an outer wall, wherein the inner wall itself is more expandable than the outer wall itself such that the inflatable bladder itself is configured to deform substantially inwardly to exert localized pressure against a region of the heart when the inflatable bladder is positioned adjacent the region of the heart and inflated.

A cardiac device for implantation proximate an exterior of a heart, the cardiac device including an inflatable bladder including an inner wall and an outer wall, wherein the inner wall itself is more expandable than the outer wall itself such that the inflatable bladder itself is configured to deform substantially inwardly to exert localized pressure against a region of the heart when the inflatable bladder is positioned adjacent the region of the heart and inflated.