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.

A warp knitted fabric formed by a warp knitting machine includes a first knitted portion formed using a first knitting sequence in a machine direction, the first knitted portion formed of a set of continuous textile strands, and a second knitted portion formed of the set of continuous textile strands using a second knitting sequence in the machine direction, the second knitted portion comprising at least two strips extending lengthwise in the machine direction and detached from one another along their lengthwise edges. The first knitted portion and the second knitted portion alternate sequentially in the machine direction. The second knitting sequence differs from the first knitting sequence in that at least one cross connecting stitch is dropped to form the at least two strips.

A heart valve repair device, comprising an atrial-fixation member having an expandable mesh configured to have oval or circular shape in a deployed configuration, the atrial-fixation member defining a central lumen; and a baffle extending from a portion of the atrial-fixation member, the baffle having an anterior portion with a smooth, atraumatic surface configured to coapt with at least a portion of one or more native leaflets of a native heart valve, a posterior portion configured to engage and displace at least a portion of another native leaflet of the native heart valve, wherein the baffle extends radially inward from the atrial-fixation member into the central lumen to approximate a closed position of the displaced native leaflet.

A composite scaffold having a highly porous interior with increased surface area and void volume is surrounded by a flexible support structure that substantially maintains its three-dimensional shape under tension and provides mechanical reinforcement during repair or reconstruction of soft tissue while simultaneously facilitating regeneration of functional tissue.

A composite scaffold having a highly porous interior with increased surface area and void volume is surrounded by a flexible support structure that substantially maintains its three-dimensional shape under tension and provides mechanical reinforcement during repair or reconstruction of soft tissue while simultaneously facilitating regeneration of functional tissue.

A compliant scaffold incorporates a plurality of elongated apertures that form a geometric pattern enabling biaxial expansion or contraction. An elongated aperture has a pair of nodes located on opposing sides of the aperture and between a pair of antinodes located on the extended and opposing ends of the elongated aperture. A geometric pattern may have various geometric shapes, or tiles, between the plurality of apertures. The geometric tiles have a bounded perimeter formed by the plurality of elongated apertures. A substantial portion of the elongated apertures may be configured with the antinodes proximal to one of said pair of nodes of a separate elongated aperture; wherein the antinodes are closer to one of the pair of nodes than to any other antinode. This unique arrangement of the elongated apertures may be formed in biological material in vivo or ex vivo.

A composite scaffold having a highly porous interior with increased surface area and void volume is surrounded by a flexible support structure that substantially maintains its three-dimensional shape under tension and provides mechanical reinforcement during repair or reconstruction of soft tissue while simultaneously facilitating regeneration of functional tissue.

Provided is a seamless, cylindrical, high-density medical fabric which is thin and has high strength and low water permeability, the diameter of which can be reduced, which has high sewing strength in a region of at least 10 mm, in the lengthwise direction, from one end thereof, and to which damage can be minimized. The high-density medical fabric according to the present invention satisfies that: (1) both warps and wefts are synthetic fiber multifilament yarns having a total fineness of 60 dtex or lower; (2) the warps each have a single fiber fineness of 0.5 dtex or lower; (3) the cylindrical fabric has a two-wefts insertion woven structure in a region of at least 10 mm, in the lengthwise direction, from one end of the fabric; (4) the fabric has a cover factor of 1600-2400; and (5) the thickness of the fabric is 110 μm or less.

A composite scaffold having a highly porous interior with increased surface area and void volume is surrounded by a flexible support structure that substantially maintains its three-dimensional shape under tension and provides mechanical reinforcement during repair or reconstruction of soft tissue while simultaneously facilitating regeneration of functional tissue.

Percutaneous access devices (PAD) or other implantable medical devices formed with chain mail are provided. The use of chain mail allows for a flexible PAD that promotes the formation of natural biologic seals between the skin and the device to form a barrier to microbial invasion into the body. Percutaneous access devices may be used for cardiac assist systems, peritoneal dialysis catheters, Steinman pin, Kirschner wires, chronic indwelling venous access catheters that require skin penetration, and osseo-integrated percutaneous medical appliances. Unlike conventional chain mail that is only formed in two dimensional sheets, chain mail is formed in elongated linear chains with occasional interlinks, two dimensional sheets, and in other configurations and combinations including three dimensional structures, pendant petals, elongated linear chains, combined fractal structures having a non-integer dimensionality intermediate between 1 and 3, and combinations thereof. Chain mail may be formed of combinations of simpler structures to form higher-order structures.