An orthopedic stabilization device is provided having a first button and a suture. The first button includes a base portion and a locking loop extending from a distal surface thereof, and a locking member slidably receiving the locking loop. At least a portion of the suture extends through the locking loop superior the locking member in the axial direction and at least a portion of the suture extends through the locking loop inferior the locking member in the axial direction such that a portion of said suture is frictionally retainable between said locking member and said locking loop when the suture is tensioned. The device may include a second button with the suture disposed between the first and second buttons such that the suture may be held in tension therebetween.

Syndesmotic fixation devices, systems, instruments, and methods thereof. An implant for stabilizing an ankle joint between a tibia and a fibula may include first and second anchors secured to the tibia and a suture configured to wrap around the fibula. The suture may be tensioned to provide a circumferential force around the fibula to stabilize the joint.

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.

Open implant closure structures include a helically wound guide and advancement flange form having splay control surfaces. Multi-start closures and closures with inner set screws have splay control contours for interlocking with cooperating flange forms of bone anchor receivers. Flange form heights, thicknesses and other geometry, such as splay control ramp angle may be varied.

An intramedullary bone fixation device is provided with an elongate body having a longitudinal axis and an actuator to deploy at least one gripper to engage an inner surface of the intramedullary space to anchor the fixation device to the bone. Methods of repairing a fracture of a bone are also disclosed. One such method comprises inserting a fixation device into an intramedullary space of the bone to place at least a portion of the fixation device on one side of the fracture, providing rigidity across the fracture, and operating an actuator to deploy at least one gripper to engage an inner surface of the intramedullary space to anchor the fixation device to the bone. Various configurations allow a segmented device body to lock in the intramedullary space before and/or after fixation of the bone.

Spinal implants for limiting flexion of the spine are implanted between a superior spinous process and an inferior spinous process or sacrum. The implants include upper straps which are placed over the upper spinous process, while the lower portions of the implant are attached to the adjacent vertebra or sacrum. The attachments may be fixed, for example using screws or other anchors, or may be non-fixed, for example by placing a loop strap through a hole in the spinous process or sacrum.

Various methods for treating a joint are disclosed herein. According to one method, a joint is surgically treated by performing a surgical repair treatment on tissue within the joint capsule; implanting a load reducing device at the joint and entirely outside of the joint capsule to reduce load transmitted by the treated tissue to allow for the tissue within the joint capsule to heal; and partially unloading the joint during healing of the surgical repair site.

A tool useful for deploying a flip anchor connected to a cable includes a housing with a first end and a second end; and a guiding tube having a bore therethrough. The guiding tube has a proximal end releasably connected to the first end of said housing, and a distal end configured to hold said flip anchor. The housing includes a mechanism having a low resistance surface and a slider having a high friction surface facing the low resistance surface, where the slider is movable between a) a clamping position configured to clamp the cable between the low resistance surface and the high friction surface; and b) a release position configured to allow the cable to move freely on the low resistance surface. A safety button on said housing is movable between an elevated position where the safety button holds the slider in said first position, and a depressed position where the safety button releases the slider, allowing it to enter the second position. The slider is configured to move the cable distally upon movement from the clamping position to the release position, deploying the flip anchor from the guiding tube.

Soft tissue retention devices, instrumentation and related methods are disclosed. The devices include a first member having a first head portion and a first shaft portion, the first head portion and the first shaft portion defining a cannulated opening that extends at least partially through the first member, and a second member having a second head portion and a second shaft portion extending from an inner side of the second head portion, the second head portion and the second shaft portion defining a cannulated opening that extends at least partially through the second member.

Devices and systems used to ablate tissue of a tumor using laser energy are disclosed. The devices and systems include a laser probe and a magnetic resonance (MR) safe temperature probe. The MR safe temperature probe includes an optical sensor. A bone anchor fixture separates the laser probe and the MR safe temperature probe to prevent interference in the MR safe temperature probe data. Proton Resonance Frequency (PRF) thermometry is used to model a temperature of a pixel of an MR image located adjacent the optical sensor. The modeled pixel temperature and the measured temperature are compared and monitored. Exceeding a threshold difference value causes an intervening action to occur.