A method of treating prolapse of a vagina is provided by placing a reinforcing implant inside of the vagina. The method includes inserting a porous sheet of material inside of the vagina through a natural vaginal opening of the patient. The porous sheet of material is an implantable support that is adapted to integrate with tissue inside of the vagina to reinforce and support at least an apical portion of the vagina. The method includes maintaining the apical portion of the vagina in an anatomically natural position by supporting the porous sheet of material inside of the vagina relative to one of a sacrum and a ligament of the patient.

Methods, systems, and compositions for treatment are provided. The methods can be used to stretch and completely or nearly completely wrap a composition around an implant or tissue expander. The systems can be used to protect an implant or tissue expander by completely or nearly completely wrapping a composition around the implant or tissue expander. The compositions can be used to completely or nearly completely wrap around an implant or tissue expander to provide support and protection to the implant or tissue expander.

A method of using an implantable mesh for repairing a tissue defect or reconstructing tissue, wherein the implantable mesh has a mesh body and at least two mesh extensions comprised of mesh extending therefrom, includes positioning the mesh body of the implantable mesh such that the mesh body extends across the tissue defect or tissue to be reconstructed and passing at least one mesh extension through tissue adjacent to the tissue defect or tissue to be reconstructed so as to anchor the implantable mesh to the tissue and resist high tension without dehiscing or migrating from the tissue defect or tissue to be reconstructed.

The present disclosure is directed to a degradable medical implant (10) for regeneration of soft tissue, comprising a plurality of scaffolds (1), and a plurality of connecting elements (2), wherein each scaffold (1) has a surface projected in the x-y plane, of maximum 500 mm.sup.2, and wherein the connecting elements (2) bind the scaffolds (1) together in the x-y plane.

The present disclosure provides a deployment device that includes (a) an elongate shaft having a first end and a second end, (b) a grasping assembly coupled to the first end of the elongate shaft, where the grasping assembly includes a first jaw and a second jaw rotatable with respect to the elongate shaft, where the grasping assembly is configured to accept a wound closure device between the first jaw and the second jaw, where the wound closure device comprises at least two fixation components connected to and extending therethrough, where each of the first jaw and the second jaw include at least one coupling element configured to be removably coupled to a respective fixation component when the wound closure device is coupled to the grasping assembly, and (c) an actuator coupled to the second end of the elongate shaft, where the actuator is configured to move the grasping assembly between an open position and a closed position.

The present disclosure provides a wound closure device that includes (a) a biocompatible material configured to be brought into abutment with a tissue surface, and (b) a plurality of fixation components connected to and extending through the biocompatible material, where at least one of the plurality of fixation components is configured to allow a suture to be connected to and extend through the at least one fixation component.

Provided is a method of treating inguinal hernia, in which a burden applied to a patient during treatment can be reduced. There is provided a method of treating inguinal hernia, in which a bowel is prevented from being exposed to an outside through a fascia. The method of treating inguinal hernia includes an introduction step of introducing a member configuring a structural body which restricts deformation of the bowel, through an anus toward a hernial site by using a transportation member; and a configuration step of configuring the structural body with respect to the bowel which stays medial to the fascia.

The present invention relates to a device (10) for facilitating the implantation of a surgical mesh (1) having at least one barbed face (2), said device comprising: said surgical mesh (1), at least one biocompatible film (11, 11a, 11b) shaped and dimensioned to at least partially cover said barbed face (2), at least one cable (12) arranged to removably attach said film (11, 11a, 11b) to said barbed face (2) of said mesh (1).

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.

The present invention relates to a resorbable polymeric mesh implant, that is intended to be used in the reconstruction of soft tissue defects. The mesh implant has at least a first and a second material, wherein the second material is substantially degraded at a later point in time than the first material following the time of implantation. The mesh implant is adapted to have a predetermined modulus of elasticity that gradually is decreased until the mesh implant is completely degraded and subsequently resorbed. Due to the gradual decrease in the modulus of elasticity of the inventive mesh implant, the regenerating tissue may gradually take over the load applied to the tissue defect area. Interstices between individual filaments of multifilaments create a capillary effect for cells within the body.