Femoral Neck Open Reduction And Internal Fixation
Historically they have treated with independent screws placed into the femoral neck, but this provides no compression to encourage bone healing. There have also been many plating systems, but these often require a large dissection that can put the blood supply to the femoral head at risk and may hasten osteonecrosis (bone death due to a lack of blood supply).
Soon there were specific plates like the Dynamic Hip Screw (DHS) that were used to provide compression across the fracture site to encourage bone healing. However, these had poor rotational control because the fragment in the hip joint could still rotate independently as the screw was advanced.
Femoral Neck Fracture Surgery
The anatomy of the femora neck makes it very difficult to treat with a plate and screws. There exists a large amount of force that is transmitted through the femoral neck with ambulation, and many of these fractures may also be able to rotate, which would prevent healing in the proper alignment.
For these reasons, stability is important to help these fractures heal. Joint replacement remains an option for older or less active patients, because it does not depend on fracture healing but is not an option for the younger population.
The Femoral Neck System was designed by Depuy Synthes to address some of these challenges. It is a plate and screw system that was specifically engineered for femoral neck open reduction and internal fixation. It has a large diameter “bolt” that provides angular stability. There is an anti-rotational screw that allows for rotational control of the femoral head fragment.
It has a low-profile design to prevent hardware prominence and an option to place 1 or 2 independent screws to help secure the plate to the femur. It only requires a small incision on the hip that allows for preservation of the blood supply that keeps the femoral head alive. This system allows for an anatomic reduction of the femoral neck, while providing built-in options to also control rotation in a low-profile design, all while respecting the blood supply to the femoral head.