According to one aspect of the disclosure, a prosthetic heart valve system includes a prosthetic heart valve including a stent, a cuff and a plurality of leaflets, the cuff and the plurality of leaflets forming a valve assembly, and an expandable balloon having a deflated state and an inflated state, the expandable balloon being configured and arranged to transition the prosthetic heart valve from a collapsed condition to an expanded condition and protect portions of the valve assembly during crimping and delivery.

In some embodiments, a prosthetic heart valve system, includes a prosthetic heart valve including a stent, a cuff and a plurality of leaflets, the cuff and the plurality of leaflets forming a valve assembly, and the stent having one or more retention tabs, and a delivery device having an inner shaft and an expandable balloon transitionable between a deflated state and an inflated state, the delivery device having a hub with one or more receivers to accept the one or more retention tabs.

There is provided a lens for use in a human or animal body, the lens comprising a metasurface configured to modulate incident light, wherein the metasurface is composed of at least one light transmissive biomaterial. Also provided is a method of making the lens.

Various endovascular scaffolds and methods of making and using the endovascular scaffolds are disclosed. In one variation, an endovascular scaffold is disclosed comprising a plurality of undulating rings and a plurality of interconnecting struts connecting the plurality of undulating rings to one another. The plurality of undulating rings can be radially compressible into a delivery configuration and expandable from the delivery configuration to an expanded configuration when deployed. At least some of the interconnecting struts can biodegrade after the endovascular scaffold is deployed within the peripheral vessel.

Methods and systems for rotationally aligning a commissure of a prosthetic heart valve with a commissure of a native valve are disclosed. In some examples, a delivery apparatus can include a first shaft configured to rotate around a central longitudinal axis of the delivery apparatus, a second shaft extending through the first shaft and having a distal end portion extending distally beyond a distal end portion of the first shaft, an inflatable balloon coupled to the distal end portion of the first shaft, and a third shaft surrounding the first shaft. The first shaft is configured to rotate within the third shaft and translate axially relative to the third shaft, and the third shaft includes a distal tip portion including a plurality of internal helical expansion grooves and a plurality of external helical expansion grooves that are configured to allow the distal tip portion to flex radially outward.

Methods and systems for attaching a radiopaque marker to a prosthetic heart valve to indicate a location of a commissure of the prosthetic heart valve are disclosed. As one example, a prosthetic heart valve can include a frame, a plurality of leaflets arranged within the frame, and at least one commissure comprising an attachment member comprising a central portion and a flap extending outward from the central portion, the flap folded over a radially outward facing side of the central portion, and the attachment member arranged across a selected cell of the frame. The commissure further comprises commissure tabs of two adjacent leaflets coupled to a radially inward facing side of the central portion, and a radiopaque marker arranged on the flap of the attachment member, between the flap and the radially outward facing side of the central portion.

Methods and systems for attaching a radiopaque marker to a prosthetic heart valve to indicate a location of a commissure of the prosthetic heart valve are disclosed. As one example, a prosthetic heart valve includes a frame including a plurality of struts forming a plurality of cells of the frame arranged between an inflow end and an outflow end of the frame, a plurality of leaflets arranged within the frame, and at least one commissure comprising an attachment member arranged across a selected cell of the plurality of cells of the frame and commissure tabs of two adjacent leaflets coupled to the attachment member. The valve further includes a radiopaque marker arranged on the attachment member of the commissure within the selected cell.

An intraocular lens includes an optic having an anterior optic surface, a posterior optic surface, and an optic edge extending between the anterior optic surface and a posterior optic surface. The optic edge includes a convex portion extending from a periphery of the anterior optic surface and a flat portion extending from a periphery of the posterior optic surface such that a corner edge is formed between the optic edge and the posterior optic surface. The flat portion intersecting the convex portion to form the optic edge. Such an optic edge may eliminate glare or other undesired effects that adversely impact quality of vision.

Methods and systems for attaching a radiopaque marker to a prosthetic heart valve to indicate a location of a commissure of the prosthetic heart valve are disclosed. As one example, a prosthetic heart valve can include a frame, a plurality of leaflets arranged within the frame, and at least one commissure comprising an attachment member comprising a central portion and a flap extending outward from the central portion, the flap folded over a radially outward facing side of the central portion, and the attachment member arranged across a selected cell of the frame. The commissure further comprises commissure tabs of two adjacent leaflets coupled to a radially inward facing side of the central portion, and a radiopaque marker arranged on the flap of the attachment member, between the flap and the radially outward facing side of the central portion.

Methods and systems for rotationally aligning a commissure of a prosthetic heart valve with a commissure of a native valve are disclosed. In some examples, a method can comprise advancing a distal end portion of a delivery apparatus toward a native valve; visualizing under fluoroscopy and for a selected imaging view, a position of a radiopaque marker on the distal end portion relative to a guidewire extending through the delivery apparatus, the marker circumferentially offset from a selected commissure of the radially compressed prosthetic valve by a predetermined amount that is determined based on the selected imaging view; rotating the delivery apparatus until the marker is centered along the guidewire; and advancing the distal end portion into the native valve and inflating the balloon to radially expand and implant the prosthetic valve in the native valve such that the selected commissure is aligned with a commissure of the native valve.