Abstract
Introduction
The purpose of this study was to compare pre-operative acetabular cup parameters using this novel dynamic imaging sequence to the Lewinnek safe zone
Methods
We retrospectively reviewed 350 consecutive primary THAs that underwent dynamic pre-operative acetabular cup planning utilizing a pre-operative CT scan to capture the individual's hip anatomy, followed by standing (posterior pelvic tilt), sitting (anterior pelvic tilt), and supine X-rays. Using these inputs, we modeled an optimal cup position for each patient. Radiographic parameters including inclination, anteversion, pelvic tilt, pelvic incidence, and lumbar flexion were analyzed.
Results
Mean age of patients was 63 years (range, 18 to 95). Mean supine pelvic tilt was 4.7o (range, −31o to 21o), standing pelvic tilt was −0.3o (range, −33o to 23o), and flex-seated pelvic tilt was −0.7o (range, −42o to 32o). Mean pelvic incidence was 54o (range, 24o to 88o) and mean lumbar flexion was 43o (range, 0o to 78o). Mean inclination was 40° (range, 34 to 49) and mean anteversion was 24° (range, 3.5 to 39). Only 56% of the dynamically planned cups were within the Lewinnek safe zone (p<0.05, Figure 1). Mean inclination and anteversion difference between dynamic and Lewinnek safe zone was 1.3o (range, 0o to 12o) and 8.9o (range, 0o to 25o), respectively.
Conclusion
Our study demonstrates that historical target parameters for cup inclination and anteversion significantly differ to target values obtained with the use of functional imaging. Understanding the individual spinopelvic motion for each patient allows for more accurate placement of the acetabular component, which may help to reduce the risk of dislocation, premature wear and squeaking of bearing surfaces, and improve functional outcomes.
