An implant includes a primary structural element, and two clips coupled to the primary structural element, on opposite lateral sides of the primary structural element from each other, each of the clips having a first clip element and a second clip element. The implant is transluminally advanced to a heart valve of a subject. The implant is coupled to leaflets of the valve (i) by, for each of the clips, closing the clip around a central part of a respective leaflet of the valve by causing deflection between the first clip element and the second clip element, thereby sandwiching the central part of the respective leaflet between the first clip element and the second clip element, and (ii) such that the leaflets form a double orifice configuration, with the primary structural element disposed between the central parts of the leaflets. Other embodiments are also described.

A mesh element having a mesh gauge selected to control flow of materials therethrough. The mesh element is implantable into an anatomical structure upstream of a body passage or within a body passage to control flow of materials through the body passage. The mesh element may be coupled to a support structure to facilitate anchoring of the mesh element in place relative to the body passage. The support structure may have a lumen defined therethrough to allow flow of materials through the body passage, with the mesh element regulating the flow of materials into the lumen. The mesh element alternatively may be directly coupled to an anatomical structure upstream of a body passage to regulate or determine flow of materials through the body passage.

A prosthetic valve includes a frame and a flow control component. The frame has an aperture extending through the frame about a central axis. The flow control component is mounted within the aperture and is configured to permit blood flow in a first direction approximately parallel to the vertical axis from an inflow end to an outflow end of the flow control component and to block blood flow in a second direction, opposite the first direction. The frame has an expanded configuration with a first height along the central axis, a first lateral width along a lateral axis perpendicular to the central axis, and a first longitudinal length along a longitudinal axis perpendicular to the central axis and the lateral axis. The frame has a compressed configuration with a second height less than the first height and a second lateral width less than the first lateral width.

Devices are disclosed for use in the transcatheter treatment of mitral valve regurgitation, specifically a coaptation assistance element for implantation across the mitral valve and an edge to edge device. Methods are disclose for reducing mitral valve regurgitation at low left ventricle pressure and high left ventricle pressure during the cardiac cycle. Devices are disclosed for use in the transcatheter treatment of mitral valve regurgitation, specifically a coaptation assistance element for implantation across the mitral valve with an adaptive coaptation element.

A mesh for repair/prevention of a parastomal hernia during ostomy treatment is disclosed. More specifically, a pre-molded mesh having a unique shape to provide support to the abdominal wall adjacent a stoma formed during an ostomy procedure to prevent/repair formation of a parastomal hernia is disclosed which also provides a clearance channel through which the bowel can pass in a manner that prevents collapse or obstruction of the exposed segment of the bowel.

A compressible and expandable stent assembly for implantation in a body lumen such as a mitral valve, the stent assembly including at least one stent barrel that is shaped and sized so that it allows for normal operation of adjacent heart structures. One or more stent barrels can be included in the stent assembly, where one or more of the stent barrels can include a cylinder with a tapered edge.

A delivery system for delivering and deploying stent grafts having a proximal stent includes a first lumen and a stent capture device including a capture portion fixedly connected adjacent a first lumen distal end. An outer catheter has a catheter distal end and a catheter inner diameter. A second lumen having a second distal end is slidably disposed about the first lumen and within the outer catheter. A stent graft sheath has a sheath proximal end connected to the second distal end and disposed about the first lumen. The sheath has a sheath distal end and a sheath inner diameter greater than the catheter inner diameter for holding a compressed stent graft. A distal nose cone has a cone proximal end connected to either the capture portion or the first distal end. The nose cone and the capture portion are movably adjustable to selectively capture the sheath distal end therebetween.

A stress urinary incontinence device is provided to limit or prevent leakage of urine in an individual. The device includes a body comprising an inner portion surrounded by an outer portion. The outer portion comprises biocompatible material and has a contact face opposing a guide face. The contact face is configured to occlude the urethral opening of the individual. A guide having an interior portion surrounded by an exterior portion projects from the guide face to aid in the application of the device onto the urethral meatus beneath the inner labia and above the vaginal opening of the individual. The device comprises materials that render it reusable.

Described herein are devices and methods for applying a tension force to various tissues. The devices may be delivered in minimally invasive fashion and used to manipulate tissues in the nose, ear, and throat. Force may be maintained by the devices for a time period that allows shaping, compression, or approximation of tissues.

A method is presented for tricuspid valve commissural annuloplasty for secondary tricuspid insufficiency. The method comprises suturing through a valve annulus, and bringing the valve annulus to its normal size while eliminating its regurgitation. The suturing comprises applying individual sutures on pledgets through the tricuspid valve annulus from a right ventricle side along anteroposterior and posteroseptal commissures on both sides of each of said commissures, spaced-apart from them; taking out needles of said sutures from a right atrium side and tying knots along the commissures between them.