A prosthetic heart valve includes a collapsible and expandable stent extending along a longitudinal axis and having an inflow end and an outflow end, the stent including a plurality of cells annularly arranged around the stent in at least one row, the plurality of cells having a first nesting cell adjacent the outflow end of the stent, a first engaging arm disposed within the first nesting cell and being pivotally movable between a loaded condition, a partially-released condition, and a fully-released condition, the first engaging arm and the first nesting cell having a synchronous pivoting movement, and a collapsible and expandable valve assembly disposed within the stent and having a plurality of leaflets.

A medical support device (1), for use in a woman's breast as an implant without incapsulated material, wherein the medical support device (1) comprises at least a wall shaped portion (2) having a first side (3), which shows a bulge out of a plane (4), and a second side (5) of the wall shaped portion (2) has a corresponding cavity, for example a dome shape, wherein the medical support device (1) comprises an elastomer. The device will keep endogenous tissue and/or fat and/or added material, such as hyaluronic acid, in place inside of deep gland tissue of a woman's breast by means of being attached to tissue, such as muscle. A method of producing and to use such a medical support device (1).

In particular, some embodiments provide shunts having a plurality of individually actuatable flow control elements that can control the flow of fluid through associated ports and/or flow lumens. For example, each individually actuatable flow control element can be actuated to modify a flow of a corresponding port and/or flow lumen. The individually actuatable flow control elements may be actuated along a given actuation axis. A flow control assembly may include a plurality of flow control elements arranged about a collection region. Accordingly, the shunts described herein can be manipulated into a variety of configurations that provide different drainage rates based on a degree to which the ports and/or flow lumens are blocked or unblocked, therefore providing a titratable glaucoma therapy for draining aqueous from the anterior chamber of the eye.

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.

In a representative embodiment, a method comprises implanting first and second inflatable bodies within an annulus of a native heart valve by securing the inflatable bodies to tissue of the native heart valve with sutures, and implanting a prosthetic heart valve between the inflatable bodies such that the prosthetic heart valve is retained within the annulus by the inflatable bodies.

Various aspects of the present disclosure are directed toward apparatuses, systems, and methods for cardiac device anchoring and more specifically to accessing and anchoring in the pericardial space.

A catheter device and manufacturing process for manufacturing the catheter device, wherein the catheter device has a halo-shaped coiled portion extending away from a perpendicular stem portion through a swan neck portion. Eyelets on the halo coil portion and swan neck portion facilitate flow out of the bladder through the catheter device vertical to the catheter, rather than perpendicularly as is the case with existing catheters. The catheter device is formed by using a straight catheter tube, heating and cooling it within a formed mold to have the halo coil and swan neck, such that it can be straightened using a pusher and stylet, inserted into the body while straightened, and thereafter return to its coiled shape when the stylet is removed.

A mitral valve system comprising a first docking component and a second valvular component that are delivered via a single delivery catheter. The first component is located distal to the second component and provides a detachable rail to allow the second component to accurately position and lock with the first component. The first component has fixation members that are activated by either by a torus balloon or via fiber that does not restrict blood flow during delivery or during fixation member activation.

A prosthesis is implanted subcutaneously within a human penis, the prosthesis forming sides of an elongated longitudinal modified cylindrical shape, the sides hinged along a common abutment therebetween. A sheath is mounted around the prosthesis' wall and a net sheeting is imbedded under the surface of the prosthesis' wall providing a means to secure the sides; restraining them to further secure a corpora cavernosa around the prosthesis is placed. When the penis is erect it grows in girth thereby causing the sides to diverge, forcing a press-rib against a deep dorsal vein of the penis, which results in restricting blood flow and maintaining erectile rigidity and duration.

Embodiments of a heart shape preserving anchor are disclosed herein. The heart shape preserving anchor can include a frame having one or more wings extending from a lower end of the frame. The frame can be sized and shaped to distribute forces over a large surface area thereby reducing pressures applied on the heart. The anchor can include a tether for coupling to a prosthesis, such as a replacement heart valve prosthesis. In some embodiments, the anchor can include a tether adjustment mechanism which can be wirelessly operated to adjust a length of the tether relative to the frame.