Study Design: Retrospective review Objective: Determine if patients with different degrees of incidence (PI) have the capacity to compensate via pelvic retroversion before initiating lower extremity compensation. Summary of Background data: Compensatory mechanisms in the spine are thought to help patients with deformities maintain sagittal alignment. Pelvic retroversion and thoracic hypokyphosis are key mechanisms that help maintain balance. When these mechanisms are exhausted, patients often flex their hips and bend their knees. Methods: This was a retrospective radiographic analysis of the EOS images at a single institution. Various spinal sagittal parameters and lower extremity knee flexion measurements were performed. Patients were subcategorized according to PI. Knee flexion in these groups was correlated with various sagittal parameters to determine whether there were differences when knee flexion occurred based on the PI. Results: Knee flexion was independently correlated with PI, pelvic tilt (PT), PI-lumbar lordosis mismatch (PI-LL), and T1 pelvic inclination angle (TPA) in multiple regression analyses ( P < 0.05). In patients with lower PI, knee flexion occurred at a PT of 10–15 degrees, PI-LL mismatch of −5–0 degrees, and TPA of about 10–15 degrees. In those with high PI, knee flexion occurred at a PT of ∼25–30 degrees, PI-LL mismatch of ∼15–20 degrees, and TPA about 25 degrees. Those with a lower PI also more rapidly increased knee flexion with further increases in PI-LL mismatch and TPA compared with those with a higher PI. Conclusion: This study demonstrates that patients with different PI have different capacities to compensate for increasing sagittal plane deformity before initiating knee flexion lower extremity compensation. Those with a lower PI retroverted their pelvis less and begin knee compensation earlier than those with a higher PI. These findings are important for surgical planning in patients with differing PI who are compensating for knee flexion.
Deveza et al. (Tue,) studied this question.