An apparatus for repairing or replacing a mitral valve and a method of using same are disclosed. The apparatus has an atrial band securable to a ring-shaped ventricular band. The ventricular band has an anterior band and a posterior band connectable to the anterior band. The atrial and anterior bands each have a pair of apertures. Each of the apertures is positioned proximate to a respective terminal end of the bands. The apertures of the atrial and anterior bands are arranged to align with one another when their inner surfaces engage. Means are provided to secure the atrial band to the anterior band. When delivered and implanted, the apparatus is arranged to extend across the commissures of the heart, with atrial and anterior bands arranged to press against the atrial and ventricular surfaces of the mitral valve leaflets respectively.

A method for transcatheter delivery to a native heart valve needing replacement. A first component is attached to the native annulus upstream of the native leaflets maintaining native leaflet function, and is held to the native annulus by barbs that are activated by a torus balloon after the first component is fully expanded. The torus balloon can be implanted along with the support frame. A limiting cable restricts further expansion of the first component and holds a second component that contains the replacement leaflets.

The present invention provides apparatus for endovascularly replacing a patient's heart valve. The apparatus includes a replacement valve and an expandable anchor configured for endovascular delivery to a vicinity of the patient's heart valve. In some embodiments, the replacement valve is adapted to wrap about the anchor, for example, by everting during endovascular deployment. In some embodiments, the replacement valve is not connected to expandable portions of the anchor. In some embodiments, the anchor is configured for active foreshortening during endovascular deployment. In some embodiments, the anchor includes expandable lip and skirt regions for engaging the patient's heart valve during deployment. In some embodiments, the anchor comprises a braid fabricated from a single strand of wire. In some embodiments, the apparatus includes a lock configured to maintain anchor expansion.

An ophthalmic lens may comprise a posterior optic surface, an anterior optic surface, and an optic edge between the posterior optic surface and the anterior optic surface, wherein the optic edge forms a substantially circular perimeter having a thickness that varies periodically. The thickness of the optic edge may vary periodically for at least two cycles. Additionally, or alternatively, the ophthalmic lens may comprise an optic skirt coupled to the optic edge. The optic skirt can be configured to inhibit transmission of light around the optic edge.

Apparatus and methods are described including a docking element (20) configured to be implanted within a subject's left atrium such that no portion of the docking element (20) extends through the subject's mitral valve. The docking element (20) includes a ring (40), a frame (24) extending upwardly from the ring (40), and a radial protrusion (50) configured to extend radially outwardly from the frame, to be disposed in a vicinity of the subject's native mitral annulus, and to generate tissue ingrowth to the radial protrusion from walls of the left atrium at least in the vicinity of the subject's native mitral annulus. A bridging material (56), which is disposed between radial protrusion (50) and the ring (40), forms a seal between the radial protrusion (50) and the ring (40). Other applications are also described.

A support system for an intraocular lens (IOL) comprising a primary intraocular ring (PIR) mountable to an eye and a secondary device (SD), the SD in communication with the PIR and movable relative to the PIR. The movement can be one or more of rotation, forward-backward movement, decentralization, tilt and angulation. The IOL can be controllably and non-invasively moved relative to the PIR, with the movement being one or more of rotation, forward-backward movement, decentralization, tilt and angulation.

A prosthetic mitral valve includes an anchor assembly, a strut frame, and a plurality of replacement leaflets secured to the annular strut frame. The anchor assembly includes a ventricular anchor, an atrial anchor, and a central portion therebetween. The ventricular anchor and the atrial anchor are configured to flare radially outwards relative to the central portion. The annular strut frame is disposed radially within the anchor assembly and is attached to the anchor assembly. The central portion is configured to align with a native valve orifice and the ventricular anchor and the atrial anchor are configured to compress native cardiac tissue therebetween.

The present invention relates to an anti-reflux valve for preventing gastro-esophageal reflux disease and includes a body formed in a ring shape and fixed to an upper end of a gastro-esophagus; a reflux blocking plate coupled to an inner circumferential surface of the body to be rotatable in one direction; and a fixing clip coupled to an outer circumferential surface of the body to fix the body to the upper end of the gastro-esophagus.

A medical device may include an implantable device for treating a body tissue structure. The implantable device may include a wire structure which may include a wave pattern. The wire structure may be elastic so as to provide a pressure around the body tissue structure such that the pressure may change with movement of the body tissue structure.

Embodiments of the present disclosure include a cardiac device comprising a band configured for deployment within a heart. The band may include a first end and a second end, an actuatable clasp associated with the first end of the band and configured to transition, upon actuation, from an open configuration to a closed configuration for forming the band into a fixed length loop after the second end is moved beyond the clasp. The clasp may be configured for actuation via a catheter. The cardiac device may include a clasp retainer associated with the clasp, the clasp retainer being configured to hold the clasp in the open configuration and the clasp being configured to be actuated upon movement of the clasp retainer, and a clasp actuator configured to move the clasp retainer thereby actuating the clasp.