A coronary artery check valve includes a stent configured to attach to an inner wall of a coronary artery of a living subject, and a tapered helical coil coupled to the stent and configured to regulate blood flow in the coronary artery. The coronary artery check valve is configured to prevent retrograde flow of the coronary blood supply during diastole by closing during systole of the heart when the tapered helical coil compresses longitudinally, and opening when the tapered helical coil expands longitudinally to permit blood flow into the coronary artery when a coronary pressure of the living subject drops below diastolic blood pressure.

Provided is a foldable one-way valve prosthesis has an open state allowing a fluid to pass therethrough, and a closed state, preventing or at least reducing a reverse fluid flow therethrough. Leaflets are attached to each other along their common side edges with a possibility of pivoting relative to each other about the common side edge when the leaflets are folded along their folding lines causing the short section of the downstream edge to be angled with respect to the long section thereof, so as to bring the valve prosthesis into the closed state.

A heart valve prosthesis for replacing a diseased native valve in a patient, the valve includes a compressible and expandable frame structure and an anchor connected to an outer periphery of the frame structure. The anchor comprises a free end and has a flat spiral shape. The valve may further include a valve segment mounted within the frame structure and expanded with the frame structure. The frame structure may be configured for receiving a valve segment.

Some embodiments of the present disclosure provide a stent-valve for transcatheter implantation to replace a cardiac valve. In some embodiments, the stent valve being compressible to a compressed state for delivery, and expandable to an operative state for implantation. In some embodiments, the stent-valve comprises a stent, a plurality of leaflets for defining a prosthetic valve, an inner skirt, an outer skirt, and a paravalve seal for sealing against surrounding tissue. In some embodiments, the paravalve seal comprising material that swells in response to contact with blood or components thereof.

Various embodiments of the present invention comprise a single-chamber collapsible and expandable prosthetic valve implant device with an elevated valve section and comprising the following capabilities: (1) preservation of native valve functionality; (2) initial preservation of native valve functionality with subsequent full replacement of native valve functionality; (3) full replacement of native valve functionality; and/or (4) mitigation of the prolapsing distance of the dysfunctional leaflets by preventing the anterior excursion of the prolapsing leaflets above the upper annular surface and into the left atrial chamber in order to preserve native leaflet functionality for as long as possible. The expanded and implanted device does not extend beyond the boundaries of the subject heart chamber, e.g., the left atrium, thereby enabling the preservation of any remaining native valve functionality with subsequent full replacement of native valve functionality if and when needed.

The disclosure relates to an arrangement of a minimally-invasive implantable closing device (1) in the superior or inferior vena cava of a human body, with a valve device (6), in which closing elements (9), which in each case extend flat over a joint surface, and can be moved between a closing position, in which the closing elements (9) together close a valve opening, and an opening position, in which a flow is released through the valve opening; an anchoring device (7) that has a self-expandable anchor and is set up to anchor the valve device (6) in the area of the superior or inferior vena cava adjacent to the vein opening in the right chamber of the heart; and a flexible packing collar (8). A minimally-invasive implantable tricuspid valve prosthesis is also provided.

An atrial sealing skirt for transcatheter valves and an atrial sealing skirt with an integrated valve to reduce paravalvular regurgitation, with or without the presence of intracardiac leads. The atrial sealing skirt includes a top brim which is positioned to conform to the atrial floor at the deployment site.

Valvular implants and blood vessel closure devices herein are configured to be positioned in the heart and to block regurgitant blood flow from the heart into blood vessels supplying blood to the heart. The valvular implants can have a cover, a membrane, a valve, a resilient frame, and/or other features. Some valvular implants can have anchors to be positioned in the blood vessels, such as in pulmonary veins, and can anchor the implant to the heart wall. Various embodiments of covers and/or membranes act as valves contracting and expanding, to alternately permit and block blood flow. The valvular implants can cover one or more blood vessels, such as one, two, three, or four pulmonary veins, and can also be configured and implanted to block an appendage to the heart, such as the left atrial appendage.

The invention relates to a transcatheter heart valve replacement (A62F2/2412), and in particular an orthogonally delivered transcatheter prosthetic valve frame having a tubular frame for mounting a flow control component wherein the valve frame is compressible to a compressed configuration for sideways or lateral introduction into the body using a delivery catheter for implanting at a desired location in the body, where the compressed configuration has a long-axis oriented roughly perpendicular to the central axis of the native annulus, wherein the long-axis of the compressed configuration of the valve is substantially parallel to a length-wise cylindrical axis of the delivery catheter, and wherein the valve has a height of about 5-60 mm and a diameter of about 25-80 mm.

A prosthetic heart valve includes a frame, a valve component, and a skirt. The frame has first and second end portions, a central longitudinal axis extending between the first and second end portions, and a plurality of struts interconnected by a plurality of joints. The joints comprise a rotational axis perpendicular to the longitudinal axis. The frame is movable between an expanded configuration and a compressed configuration. The struts comprise diagonal struts relative to the longitudinal axis when the frame is in the expanded configuration. The valve component has a plurality of leaflets. Adjacent leaflets are attached together and to the frame at commissures of the frame. The leaflets extend from the commissures in a triangular configuration and are attached to adjacent diagonal struts of the frame. The skirt is configured for reducing paravalvular leakage and attached to the diagonal struts of the frame to which the leaflets are attached.