In surgical procedures for femoral shaft fracture treatment, current techniques for locking the
distal end of intramedullary nails, using two screws, rely heavily on the use of two-dimensional
X-ray images to guide three-dimensional bone drilling processes. Therefore, a
large number of X-ray images are required, as the surgeon uses his/her skills and experience
to locate the distal hole axes on the intramedullary nail. The long-term effects of X-ray
radiation and their relation to different types of cancer still remain uncertain. Therefore, there
is a need to develop a surgical technique that can limit the use of X-rays during the distal
locking procedure.
A Robotic-Assisted Orthopaedic Surgery System has been developed at Loughborough
University named Loughborough Orthopaedic Assistant System (LOAS) to assist
orthopaedic surgeons during distal-locking of intramedullary nails. It uses a calibration frame
and a C-arm X-ray unit. The system simplifies the current approach as it uses only two near-orthogonal
X-ray images to determine the drilling trajectory of the distal-locking holes,
thereby considerably reducing irradiation to both the surgeon and patient. The LOAS differs
from existing computer-assisted orthopaedic surgery systems, as it eliminates the need for
optical tracking equipment which tends to clutter the operating theatre environment and
requires care in maintaining the line of sight. Additionally use of optical tracking equipment
makes such systems an expensive method for surgical guidance in distal-locking of
intramedullary nails.
This study is specifically concerned with the improvements of the existing system. [Continues.
