A lightweight reinforced mesh, such as a surgical mesh, suitable for use in various applications, including breast reconstruction, cosmetic breast surgery, mastopexy, breast augmentation, breast reduction, soft tissue reconstruction, hernia repair, tissue plication reinforcement, tissue support and repair, tendon support and repair, tissue engineering, and procedures or other applications requiring additional soft tissue strength or thickness. In addition, disclosed is a use of such a mesh for tissue engineering, regardless of the surgical application. In particular, the present disclosure relates to a surgical mesh capable of providing enhanced support while maintaining flexibility, low density, and absorbable characteristics. Further the present disclosure, focuses on reducing the material burden of a scaffold while increasing void space to facilitate tissue ingrowth.

A stent comprises a framework that includes a sequence of cells that each occupy a discrete segment of the stent length, and each of the cells includes a plurality of struts with ends connected at respective vertices. An adjacent pair of the cells are attached to one another by a plurality of T-bars that each include a column defining a long axis that extends parallel to the stent axis, and a top bar attached to one end of the column. An opposite end of the column is attached to a first cell, and the top bar is attached at opposite ends to a second cell of the adjacent pair of cells. The column has a minimum width perpendicular to the long axis that is wider than a maximum width of each of the struts, and the column defines at least one slot. The top bar includes a curved edge on an opposite side from the column, and the curved edge straddles the long axis.

The present disclosure relates generally to the field of medical devices and establishing fluid communication between body lumens. In particular, the present disclosure relates to devices and methods for placing the muscularis layers of first and second body lumens in contact to establish a long term or permanent open flow or access passage therebetween.

The invention relates to a method for forming a prosthetic base knit (1) made of two parallel sheets of porous knits, namely a first sheet (2) of porous knit and a second sheet of porous knit, said two parallel sheets being joined together in a discrete manner by a plurality of connecting porous knits (4) spaced apart from each other. The invention further relates to a method for manufacturing H-shaped prostheses for hernia repair from said base knit thus obtained and to the prostheses obtained therefrom.

Assembly methods for installing a valvular structure to an expandable annular frame of a prosthetic heart valve are described. The valvular structure has a multiple leaflets, each with a pair of tabs. Each tab of the leaflet has upper and lower portions. Commissures formed by paired tabs of adjacent leaflets are coupled to corresponding commissure windows to support the valvular structure within the frame. Each commissure window has upper and lower openings separated from each other by a crossbar and may have an H-shape. The upper and lower tab portions extend through the upper and lower openings, respectively, of the corresponding commissure window. One or more wedge members coupled to the tab portions can prevent the leaflet tab from passing back through the commissure window, thereby retaining the valvular structure to the annular frame.

A stent including a tubular body formed of one or more interwoven wires, a first anchor member disposed adjacent the first open end of the stent, a second anchor member disposed adjacent the second open end of the stent, and at least one divider disposed between the first and second anchor members. The first and second anchor members and the divider extend radially outward from the tubular body to divide the tubular body into at least a first saddle region extending between the first anchor member and the divider and a second saddle region extending between the second anchor member and the divider.

A method comprises advancing an elongate tube to a target implantation site, the elongate tube having a needle disposed at least partially therein that has a coiled sutureform wrapped around at least a portion thereof, contacting a distal end of the elongate tube to a target tissue, projecting a tip of the needle from the distal end of the elongate tube to pierce through the target tissue such that the tip of the needle and at least a portion of the coiled sutureform project through the target tissue, advancing a pusher device within the elongate tube and over the needle to push the at least a portion of the coiled sutureform off of the tip of the needle, and proximally pulling one or more suture tails associated with the coiled sutureform to form the coiled sutureform into a knot on a distal side of the target tissue.

Prosthetic heart valves described herein can be deployed using a transcatheter delivery system and technique to interface and anchor in cooperation with the anatomical structures of a native heart valve. In some embodiments, composite two-portion prosthetic heart valves in which two expandable components are attached to each other can be arranged in a nested configuration during both the transcatheter delivery process and the deployment process within the heart. Deployment systems and methods for using the deployment systems described herein facilitate implanting the composite two-portion prosthetic heart valves that are attached and arranged in a nested configuration during the transcatheter delivery and deployment processes.

Heart valve replacement often involves complications associated with paravalvular leaks. Vascular plug and occlusive devices, as well as heart valves particularly beneficial in treating the phenomenon of paravalvular leaks are described to address this issue.

A brace for mounting to an annulus of a cardiac valve, the brace comprising: first and second bottom gripping wings for gripping the annulus; first and second top gripping wings for gripping the annulus; and a support bridge that connects the top wings to the bottom wings; wherein the brace is formed from a shape memory alloy and is deformable from a delivery configuration to a deployed configuration and in the delivery configuration the top wings are oriented substantially back to back along an axis and the bottom wings are oriented substantially back to back along the same axis, and in the deployed configuration the first top and first bottom gripping wings face each other to grip the annulus between them and the second top and second bottom gripping wings face each other to grip the annulus between them.