Abstract: A hernia patch has a first layer of inert synthetic mesh material selectively sized and shaped to extend across and beyond a hernia. A second layer of inert synthetic mesh material overlies the first layer to create a generally planar configuration for the patch. The first and second layers are joined together by a seam which defines a periphery of a pouch between the layers. One of the layers has a border which extends beyond the seam and which has a free outer edge. A plurality of border slits extend from the outer edge through the border substantially to the seam. An access slit is formed in one of the layers for insertion of a finger of a surgeon into the pouch to allow the surgeon to deform the planar configuration of the patch to facilitate insertion of the patch into the patient and to position the patch across the hernia.

Abstract: A hernia patch has a first layer of inert synthetic mesh material selectively sized and shaped to extend across and beyond a hernia. A second layer of inert synthetic mesh material overlies the first layer to create a generally planar configuration for the patch. The first and second layers are joined together by a seam which defines a periphery of a pouch between the layers. One of the layers has a border which extends beyond the seam and which has a free outer edge. A plurality of border slits extend from the outer edge through the border substantially to the seam. An access slit is formed in one of the layers for insertion of a finger of a surgeon into the pouch to allow the surgeon to deform the planar configuration of the patch to facilitate insertion of the patch into the patient and to position the patch across the hernia.

Abstract: Surgically implantable hernia mesh patches are available in several embodiments, wherein each embodiment has double like size layers of inert synthetic mesh material, compressibly positioning an internally positioned loop of a resilient monofilament fiber, when these double layers of mesh are sewn together around their edges, while leaving one centimeter free of both top and bottom layers of mesh. During operating time of a surgical repair of an inguinal hernia, one of these hernia mesh patches is compactively arranged and then inserted through a relatively small incision, for subsequent planar expansion and directed placement to where the hernia is, usually under minimal anesthesia, without the need for entering a patient's abdominal cavity, and without the need to use instrumentation, such as laparoscopic equipment.