Full-Body Analysis of Adult Spinal Deformity Patients' Age-Adjusted Alignment at 1 Year

Background Previous studies have built a foundation for understanding compensation in patients with adult spinal deformity (ASD) by using full-body stereographic assessments. These mechanisms, in relation to age-adjusted alignment targets, have yet to be studied fully. The aim of this study was to assess lower-limb compensatory mechanisms of patients failing to meet age-adjusted alignment goals. Methods Patients with ASD ≥40 years with full body baseline and follow-up radiographs were included. Patients were stratified by age (40–65 years, >65 years) and spinopelvic correction. Lower-limb compensation parameters (pelvic shift, hip extension, knee flexion [KA], ankle flexion [AA], and global sagittal angle [GSA]) for patients who matched and failed to match age-adjusted alignment targets were compared with analysis of variance and t -test analysis. Results In total, 108 patients were included. At 1 year, AA increased with age in the “match” pelvic tilt (PT) and spinopelvic mismatch (PI-LL) cohorts (PT: AA, 5.6–7.8, P  = 0.041; PI-LL: 4.9–8.8, P  = 0.026). KA, AA, and GSA increased with age in the “match” sagittal vertical axis (SVA) cohort (KA: 3.8–13.1, P  = 0.002; AA: 5.8–10.2, P  = 0.008; GSA: 3.9–7.8, P P  = 0.020; GSA: 2.6–5.7, P  = 0.004). Conclusions Greater compensation captured by KA and GSA was associated with age progression in the “match” SVA and T1 pelvic angle cohorts. In addition, older SVA, PT, and PI-LL “match” cohorts used increased AA, suggesting that ideal postoperative alignment of aged individuals with ASD involves increased compensation.