The disclosure provides improved methods and devices to create a hammock effect to stabilize the urethra without creating an incision in the abdomen or the vagina, and without using a surgical mesh. Such implementations can also leave no permanent material in the body. The simplicity afforded by such procedures and methods permits treatment of patients on an outpatient basis, and avoids risks and disadvantages associated with the installation of a permanent mesh.

A fabric or mesh construct, and process for making same, which allows for early wound stability and then transitions to a more compliant state exhibiting a substantially constant macro-porous pore structure through the life of the implant to promote good tissue incorporation without bridging.

The present invention relates to a prosthesis (200) comprising a flexible mesh (1), which is delimited by a peripheral outer edge (1a), and a reinforcing element for said mesh, characterized in that said reinforcing element comprises at least one sheet of semi-rigid and flexible material defining a continuous vaulted structure (201) that has an inner face (201a) and an outer face (201b), at least the base (201d) of said vaulted structure being fixed to the peripheral outer edge of said mesh.

A stent that includes a stent body, which includes a strut formed from a cylindrical base material. The strut possesses a manufactured minimum outer diameter when the strut is formed from the cylindrical base material. The stent body is configured to be compressed onto an outer surface of an expandable member of a catheter. The stent body is configured to be expanded radially outward by applying a nominal pressure directed by a manufacturer within the expandable member. The strut possesses an expanded outer diameter when the stent body is expanded by the expandable member at a pressure which is two atm lower than the nominal pressure. The manufactured minimum outer diameter of the strut is equal to or larger than expanded outer diameter of the strut when the stent body is expanded by the expandable member at the pressure which is two atm lower than the nominal pressure.

Materials for soft tissue repair, and in particular, material for hernia repair. These materials may be configured as an implant, such as a graft, that may be implanted into a patient in need thereof, such as a patient having a hernia or undergoing a hernia repair surgical procedure. These grafts may include a first layer comprising a substrate (e.g., mesh) and a second layer comprising a sheet of anti-adhesive material. The layers may be attached with a plurality of relatively small attachment sites that are separated by regions in which the two layers are not attached, to provide a highly compliant graft.

A novel single plane tissue repair device such as a patch is disclosed. The device has a base member with an opening therethrough, and a closure member associated with the opening. The mesh has a biaborbable polymeric adhesion barrier attached to the bottom side of the base member about its periphery to form a pocket that is accessible through the opening. The mesh may be used in open surgical procedures for hernia repairs and other repairs of body wall defects.

A novel single plane tissue repair patch is disclosed. The patch has a base member with an opening therethrough, and a closure member associated with the opening. Mounted to the periphery of the bottom side of the base member is a locating structure. The mesh may be used in open surgical procedures for hernia repairs and other repairs of body wall defects.

A stent (scaffold) or other luminal prosthesis comprising circumferential structural elements which provides high strength after deployment and allows for scaffold to uncage, and/or allow for scaffold or luminal expansion thereafter. The circumferential scaffold may be formed from degradable material, or may be formed from non-degradable material and will be modified to expand and/or uncage after deployment.

An intraluminal filtration device for embolic protection includes a device body and each of a coarse filter and a fine filter, for filtering larger-size and smaller-size particles, respectively. The device body includes a body wall extending circumferentially around the longitudinal axis, and being formed at least in part of an organic gel.

A stent Includes a stent body formed by a strut. The stent body is cylindrically-shaped and extends in an axial direction. The stent body includes a plurality of helical portions and an annular portion. The strut is helically-shaped along the axial direction to form the plurality of helical portions and the strut is annularly-shaped in the circumferential direction to form the annular portion. Each of the plurality of helical portions has a distal end point and a proximal end point. The plurality of helical portions include a first helical portion and a second helical portion adjacent to the first helical portion in the axial direction. The annular portion is disposed between the first and second helical portions in the axial direction. At least one of the distal and proximal end points of the plurality of helical portions is directly connected to the annular portion.