A suture passer and a method with the suture passer can include a first needle extending along a first longitudinal axis. The first needle can have a sharp tip and a first hook member configured to grasp a portion of a suture. The suture passer can include a shaft extending along a second longitudinal axis. The shaft can have an eyelet that intersects with the first longitudinal axis of the first needle. The suture passer can also have an actuation mechanism coupled to the first needle, and the method can include actuating the actuation mechanism to move the first needle to a position in which the first needle's sharp tip extends through the eyelet, and releasing the actuation mechanism to move the first needle to a position in which the first needle's sharp tip is a spaced apart a distance proximal of the eyelet.

A device is disclosed that can load a suture and/or a shuttle into a suture device. The device can have a suture and/or a shuttle that can be moved (e.g., via a loader control) from a non-loaded configuration to a loaded configuration without damaging the suture or the shuttle.

According to an aspect of the present disclosure, an end effector for use with a surgical device is provided. The end effector includes a drive assembly, a driver, a needle assembly and a biasing element. The driver is disposed in mechanical cooperation with the drive assembly. Rotation of the drive assembly in a first direction causes distal translation of the driver with respect to the drive assembly. The needle assembly is disposed in mechanical cooperation with the driver. Distal translation of the driver causes a corresponding distal translation of the needle assembly. The biasing element is disposed in mechanical cooperation with the needle assembly and is configured to bias the needle assembly proximally.

A kit for plantar plate repair may include implants and instruments specific to the procedure, such as an implant assembly, a needle assembly, a distractor, a needle driver, and k-wires. Methods of assembling the items of the kit and methods of plantar plate repair are disclosed.

According to an aspect of the present disclosure, an end effector for use with a surgical device is provided. The end effector includes a drive assembly, a driver, a needle assembly and a biasing element. The driver is disposed in mechanical cooperation with the drive assembly. Rotation of the drive assembly in a first direction causes distal translation of the driver with respect to the drive assembly. The needle assembly is disposed in mechanical cooperation with the driver. Distal translation of the driver causes a corresponding distal translation of the needle assembly. The biasing element is disposed in mechanical cooperation with the needle assembly and is configured to bias the needle assembly proximally.

A surgical procedure for repairing and stabilizing an injured (torn, partially torn, or otherwise injured) cranial cruciate ligament in the canine stifle joint. The procedure strategically implants multiple filaments with increased tensile strength along multiple separate extra-capsular loading pathways that divide and distribute the load on the canine's stifle joint in different planes and directions for greater overall stability and strength of the repair. The filaments are anchored at multiple strategic points to stabilize the canine stifle joint. The repaired stifle joint requires multiple points of failure in the implanted filaments for the procedure to fail.

Suture passer systems for tissue suspension and tissue compression are described. The system can include a shaft and a needle, wherein the needle is freely rotatable with respect to the shaft. The suture may include an overmolded segment. Methods of placing one or more implants, sutures, fastener, bone anchors and other devices are also described. The methods include moving tissue, including the superior pharyngeal constrictor muscle, palatopharyngeal arch, and palatoglossal arch. The methods include hyoid bone suspension.

A surgical stacking needle for use in surgical procedures utilizing multiple filaments. The needle disclosed herein has an enlarged eye, relative to typical surgical needles, or has one or more eyes. Where the needle has a plurality of eyes, the multiple eyes are defined by one or more separators, providing strength to the needle and the eyes. The enlarged eye or the one or more eyes can be loaded with multiple filaments for use in surgical procedures. The needle may be straight, substantially straight, or curved.

Suture passer systems for tissue suspension and tissue compression are described. The system can include a shaft and a needle, wherein the needle is freely rotatable with respect to the shaft. The suture may include an overmolded segment. Methods of placing one or more implants, sutures, fastener, bone anchors and other devices are also described. The methods include moving tissue, including the superior pharyngeal constrictor muscle, palatopharyngeal arch, and palatoglossal arch. The methods include hyoid bone suspension.

Various suture passers and methods of use thereof are disclosed herein. The suture passer can include a first needle extending along a first longitudinal axis, wherein the first needle has a sharp tip and a first hook member configured to grasp a portion of a suture, and a shaft extending along a second longitudinal axis, wherein the shaft has an eyelet that intersects with the first longitudinal axis of the first needle. The suture passer can also have an actuation mechanism coupled to the first needle, wherein actuating the actuation mechanism moves the first needle to a position in which the first needle's sharp tip extends through the eyelet, and releasing the actuation mechanism moves the first needle to a position in which the first needle's sharp tip is a spaced apart a distance proximal of the eyelet.