Breast fixation devices for use in breast reconstruction and breast augmentation limit the rotation or movement of breast implants after implantation that results in an unnatural appearance of the breast. The breast fixation devices can include a thin-walled enclosure in the shape of a pouch. A breast implant is secured inside the pouch to limit movement by applying compression to the breast implants, or using a mating or interlocking mechanism between the pouch and breast implant. The pouches containing the breast implants are implanted in the breast. Tissue in-growth into the pouch limits movement of the pouch-breast implant assembly and thereby limits rotation, migration, and displacement of the breast implant. The pouches preferably comprise poly-4-hydroxybutyrate or copolymer thereof.

An example implant delivery system is disclosed. The example implant delivery system includes a delivery shaft including a proximal portion, a distal portion and a lumen extending therebetween. The delivery system also includes a frame detachably coupled to the distal portion of the delivery shaft and a tack member coupled to the frame.

In the field of medicine and medical technology, improving technical mesh implant for hernioplasty. A self-fixing mesh implant includes two layers, upper and lower, with a layer of mesh based on titanium thread on the upper side, and a layer of bioresorbable polymers on the lower side, wherein the surface of the titanium thread is made in relief. The technical result increases the efficiency of fixing the implant in the operating field, increases the plasticity and reducing the risk of implant threads breakage, increases the simplicity and strength of fixation, ensures the uniformity of fixing the implant with the entire surface thereof to the tissues of the operating wound, reduces the duration of surgery, and, as a consequence, reduces the volume of anesthesia and trauma, leading to a decrease in the rate of complications.

In the field of medicine and medical technology, improving the technical properties of endoprostheses used for the surgical treatment of hernias. A self-expanding mesh endoprosthesis for endoscopic hernioplasty includes a mesh fabric made of threads and a self-expanding system incorporated in the mesh fabric, wherein the self-expanding system is made of polyfilament titanium threads located both in the structure and along the contour of the endoprosthesis, and wherein the titanium threads of the mesh fabric are made with a relief surface. The technical result increases efficiency of performing laparoscopic hernioplasty operations, increasing the plasticity, and reducing the risk of breakage of the threads in the mesh structure, simplifying the surgical technique for passing through and placement of the endoprosthesis, reducing the duration and trauma of surgery and, accordingly, accelerating the recovery of patients.

The invention relates to the fields of medicine and medical technology and is directed toward improving the technical properties of mesh implants used for delicately surgically shaping thin anatomical structures: eyelids, cornea, etc. A tension-free titanium metal warp knit fabric for surgically shaping soft tissues is a mesh fabric made of titanium threads bent to form interconnected loops, wherein the titanium threads have a contoured surface. The technical result is a decrease in the elasticity and an increase in the plasticity of the material, making it possible to incorporate said material into thin anatomical structures without risk of trauma, while improving the formation of connective tissue, reducing wound discharge, shortening healing times, and reducing the rate of complications, thus enabling more rapid recovery of patients. 6 d.c., 7 ill.

Embodiments of an implant for use in surgery are disclosed. The implant may include elastic polymer file made from a suitable biologically compatible polymer. The implant may also include a reinforcement element.

A barbed mesh device is provided for tissue closure and tissue support when the tissue is closed by other means. The device includes a macroporous mesh with a plurality of intersections or apertures and a plurality of barbs extending from the plurality of intersections or apertures on at least one side of the mesh. The plurality of barbs each include a barb body and a plurality of projections extending at an angle from the barb body.

Resorbable implants comprising poly(butylene succinate) and copolymers thereof have been developed. The implants implants are preferably sterilized, and contain less than 20 endotoxin units per device as determined by the limulus amebocyte lysate (LAL) assay, and are particularly suitable for use in procedures where prolonged strength retention is necessary, and can include one or more bioactive agents. The implants may be made from fibers and meshes of poly(butylene succinate) and copolymers thereof, or by 3d printing, and the fibers may be oriented. Coverings and receptacles made from forms of poly(butylene succinate) and copolymers thereof have also been developed for use with cardiac rhythm management devices and other implantable devices. These coverings and receptacles may be used to hold, or partially/fully cover, devices such as pacemakers and neurostimulators. The coverings and receptacles are made from meshes, webs, lattices, non-wovens, films, fibers, and foams, and contain antibiotics such as rifampin and minocycline.

A ringless web is configured to repair heart valve function in patients suffering from degenerative mitral valve regurgitation (DMR) or functional mitral valve regurgitation (FMR). In accordance with various embodiments, a ringless web can be anchored at one or more locations below the valve plane in the ventricle, such as at a papillary muscle, and one or more locations above the valve plane, such as in the valve annulus. A tensioning mechanism connecting the ringless web to one or more of the anchors can be used to adjust a tension of the web such that web restrains the leaflet to prevent prolapse by restricting leaflet motion to the coaptation zone and/or promotes natural coaptation of the valve leaflets.

This three-dimensional knitted textile insert is obtained in a single step by warp knitting technology, on a double-needle Raschel machine or on a crocheting machine. It includes in the production direction at least two tubes extending parallel to one another, and separated from one another by a binding area at the level of which the sheets resulting from the knitting are interlinked.