A method for deforming a staple comprising a base, a first staple leg, and a second staple leg, wherein the base, the first staple leg, and the second staple leg are positioned within a common plane prior to being deformed, the method comprising positioning the first staple leg within a first cup of a staple pocket, the first cup comprising a first inner surface, applying a first compressive force to the first staple leg to bend the first staple leg toward the base and the second staple leg, contacting the first inner surface with the end of the first staple leg to bend the end of the first staple leg toward a first side of the base, and deforming the first staple leg such that the end of the first staple leg crosses a mid-line of the staple defined between the first staple leg and the second staple leg.

A system and a method are provided for a surgical bending instrument for bending surgical implants. The surgical bending instrument comprises a body including a center lever comprising a wheel and a cam. A distal force applicator comprises a driver centered between a first grip and a second grip. In some embodiments, the distal force applicator is configured to retain a surgical staple, such that the surgical staple may be changed to a distracted configuration suitable for implantation at a bone fixation or fusion site of a patient. In some embodiments, the distal force applicator is configured to bend a bone fusion plate so as to tailor the plate to specific anatomy of the patient's bone.

The present invention includes producing a preliminary mold (10-1 or 20-1) provided with two-dimensional patterns (111 or 211) having a shape of a microneedle array (30) therein; producing microneedle array molds (10 and 10-2 or 20 and 20-2) having a three-dimensional shape by expanding air inside the patterns (111 or 211) having a two-dimensional shape to deform the patterns (111 or 211) having the two-dimensional shape into molds having the three-dimensional shape; and after pouring a biodegradable resin into the microneedle array molds (10 and 10-2 or 20 and 20-2) and solidifying the biodegradable resin, completing the microneedle array (30) by removing the microneedle array molds (10 and 10-2 or 20 and 20-2), thereby providing a mold for production of a microneedle array and a production method of the microneedle array using the same capable of tightly suturing an affected area without inducing pain.

The various embodiments disclosed herein relate to bone fixation or fusion devices, including intramedullary fixation or fusion devices that are implanted around the target bone. Certain device embodiments relates to devices that can be bent or otherwise deformed to replicate the natural or desired curve of the bone or joint being treated. In addition, other embodiments relate to implantation devices that can be used to implant or position the bone fixation or fusion devices.

A surgical fastening instrument includes an elongate shaft extending from a handle. An end effector is coupled to one end of the elongate shaft. The end effector has a first jaw with retainer strips disposed thereon. Each retainer strip includes rows of receptacles and each receptacle has a passageway leading to a chamber formed in the first jaw. The end effector also includes a second jaw with fastener strips disposed thereon. The first jaw is pivotally coupled to the second jaw. Each fastener strip includes rows of fasteners and each fastener is slidably positioned on a lance extending from a surface of the second jaw. The lances are aligned with the receptacles and each fastener has barbs configured to be retained in one of the chambers.

A bio-compatible and bio-resorbable implantable device for repairing soft tissue which has a first plate and a second plate and a plurality of connecting elements for connecting the first and second plates is provided. The first plate has a first surface suitable for being placed on a first side of the soft tissue. The second plate has a second surface suitable for being placed on a second side of the soft tissue. Each connecting element has a first portion integral with the first plate and a second portion integral with the second plate. The connecting elements extend from at least one of the first surface of the first plate and the second surface of the second plate to reach the other one of the first surface of the first plate and second surface of the second plate for locking the first and second plates in a definable respective position.

A wound closure device includes multiple base elements arranged in a repeating pattern and a first anchor extending from a first side of each base element of the multiple base elements in a first direction for securing itself to a first layer of tissue along a wound within a body. The wound closure device further includes a second anchor extending from a second side of each base element of the multiple base elements in a second direction that is opposite to the first direction for securing itself within a second layer of tissue along the wound, such that the wound closure device is configured to hold the first and second layers of tissue against each other to close the wound.

Disclosed in an orthopedic implant that comprises a spacer portion having a superior portion and an inferior portion, and a staple portion. The staple portion is integral with the spacer portion and comprises a crown portion and first and second leg portions, the first and second leg portions having distal end that converge from the crown portion and that are composed of a material that has superelastic properties at body temperatures, whereby the first and second leg portions are configured to impart a compressive biasing force when the implant is installed with the legs under tension.

A surgical kit for repairing a ligament includes suture tape configured to be positioned across the ligament from a fixed end of the ligament to a free end of the ligament. At least one anchor is configured to position over the ligament. An instrument is configure to secure the anchor to the bone.

Devices, systems and/or methods for repairing soft tissue adjacent a repair site. In one embodiment, a repair device includes a plate member and an anchor. The plate member having a periphery, the plate member configured to be positioned along an outer surface of the soft tissue. The anchor includes a base and six legs extending from the base, the six legs extending from the base being moveable to a curled configuration such that the six legs wrap around separate portions of the periphery of the plate member with the soft tissue therebetween. In this manner, the repair device may be anchored to the soft tissue.