This disclosure relates to surgical tools and methods. The surgical tools can include a handle, which includes an outer surface. A first rod extends from the handle and includes a first lumen. A second rod extends from the handle and includes a second lumen. A first set of suture cleating channels are formed in the outer surface. A second set of suture cleating channels are formed in the outer surface and spaced apart from the first set of suture cleating channels.

A mesh deployment device is configured to place a surgical mesh on tissue retro muscularly. In particular, the mesh deployment device includes an arm assembly that is transitionable between a retracted configuration, in which, stationary and covering arms are in superposed relation such that the surgical mesh is supported by the supporting arm therebetween, and a deployed configuration, in which, the stationary, covering, and supporting arms are circumferentially spaced apart to support the surgical mesh thereon.

A surgical device for correction of upper eyelid ptosis with autologous sling, comprising: a malleable rod (1), 6 cm long and 3 mm thick with blunt tapering tip (2); a catching end (3), where the catching end (3) contains both upper jaw (3A), lower jaw (38), where plurality of forward directed teeth (3C) positioned on both jaws inner surface; a hinge (3D) with closing spring, keeping both the jaws closed; an oval central hole (3E) of 2 mm positioned in mid of both the jaws so the upper hole faced towards the lower hole.

The device holds the sling and passes from one point of eyelid to the other in 5 seconds to 10 seconds.

Techniques for mesh augmentation and prevention of incisional hernia, including systems and methods for affixing mesh to a fascial incision. A mesh strip can be integrated with one or more uni-directional fasteners. Each fastener can include an anchoring mechanism adapted for affixation to anterior abdominal wall fascia and a mating interface. An applicator can include tension arms adapted to interface with the mating interfaces of the fasteners to maintain a vertical tension of the mesh strip and a handle coupled with the tension arms adapted to spread the tension arms and thereby control a horizontal tension of the mesh strip. The mesh strip can be configured to be aligned over a fascial incision using the applicator and affixed under tension to anterior abdominal wall fascia by tissue penetration of the anchoring mechanisms of the one or more fasteners.

Devices and methods for performing subcutaneous surgery in a minimally invasive manner are provided. The methods include application of reduced air pressure in a recessed area of a handpiece placed over a section of skin and drawing the section of skin and subcutaneous tissue into the recessed area. In a subsequent step a tool is inserted through a tool conduit in the handpiece and through the skin into the subcutaneous tissue, enabling the performance of the desired surgery. Common surgical procedures include dissection and ablation . The devices and methods can be directed at the treatment of skin conditions like atrophic scars, wrinkles, or other cosmetic issues, at treatments like or promoting wound healing or preventing hyperhidrosis, or can be used for creating space for various implants.

Mastopexy implants for lifting the breast of a patient create new tissue planes in the breast that provide a more durable lift, and are particularly useful in lifting breasts with a high content of fatty tissue. The implants can be implanted through stab incisions using blunt dissection, and reduce operating time, and provide an improved aesthetic appearance with minimal scar formation. The implants are designed to be transitory, and have sufficient strength retention to allow the new tissue planes to form and support the lifted breast without any significant loss of support during this regenerative period.

This invention relates to an implantable device for a physiologic sensor, comprising an implantable expandable anchor, a bridge on which the sensor is secured, as well as an optional adapting ring. The invention also relates to a method of monitoring bodily functions using the anchor and sensor. The anchor is compressed and the bridge assumes an elongated shape during delivery to a target lumen. Upon deployment at the target site, the anchor expands and the bridge bows into the interior lumen of the expanded anchor, distancing the sensor from the vessel wall. This invention also relates to a method of manufacturing said device and a method of implanting a sensor.

Implant delivery systems for delivering sheet-like implants include a delivery shaft, an implant expander, a sheath, and a sheet-like implant. In some embodiments, the delivery shaft has a proximal end and a distal end. The implant expander is mounted to the distal end of the delivery shaft. The implant expander includes a central portion and a plurality of leg portions radiating from the central portion. The implant expander is evertable between an unstressed configuration in which a distal surface of the implant expander defines a concave surface, and a first compact configuration in which the distal surface of the implant expander defines a convex surface. The implant expander has a first lateral extent when the implant expander is free to assume the unstressed configuration. The sheath defines a lumen having a lumen diameter. At least a portion of the delivery shaft is slidably disposed in the lumen. The lumen diameter is smaller than the first lateral extent of the implant expander so that the sheath holds the implant expander in the first compact configuration when slidably disposed therein. The sheet-like implant overlays at least a portion of the distal surface of the implant expander with portions of the sheet-like implant extending between the leg portions of the implant expander and the sheath. Methods of treating a rotator cuff of a shoulder are also disclosed.

A method and prosthesis is provided for percutaneous repair of an anatomical defect, such as an inguinal hernia. The method involves percutaneously accessing the inguinal canal of a patient. Following hernia reduction, if required, the hernia defect may be accessed and repaired percutaneously from within the inguinal canal. An implantable prosthesis may be percutaneously delivered into the inguinal canal. The prosthesis may be advanced along the inguinal canal from the percutaneous entry location to the defect site, where it may be deployed over and/or within the defect. A biocompatible foam material may be percutaneously delivered into the inguinal canal to reduce and/or repair the hernia defect. The foam may fill and solidify in the canal to prevent abdominal viscera from reentering the canal. Ablative therapy may be performed within the inguinal canal to cause a fibrotic response resulting in scar tissue formation and/or tissue shrinkage that narrows the canal.

An enclosure device is disclosed for delivering an implantable sheet-like support or repair device, such as ligament, tendon or other soft tissue support or repair device, to a surgical site. The enclosure device protects the support or repair device from unwanted adhesion and deformation during delivery and facilitates its optimal positioning at the injury or repair site where the support or repair device will be implanted. The enclosure device has a planar body foldable along one or more fold lines into at least two panels configured to contain the repair device between the panels; an optional cutout in one or more panels of the planar body at the panel edge opposite the fold line configured to expose a portion of the repair device; an optional positioning tab extending out from the fold line; and an optional securing mechanism to secure the enclosure device in a folded position. Methods of using the enclosure device are described.