Abstract
Total hip arthroplasty (THA) aims to restore hip joint alignment in patients with osteoarthritis (OA) or osteonecrosis of the femoral head (ONFH). While THA directly affects hip alignment, it also influences leg and patellar alignment, potentially altering knee biomechanics and accelerating osteoarthritis progression. Postoperative alignment changes commonly include increased varus alignment in the operative leg and valgus alignment in the contralateral leg. However, the factors contributing to these changes remain unclear, particularly the role of femoral anteversion. This study analyzed 228 patients who underwent hybrid THA, assessing preoperative and postoperative radiographic parameters, including femoral anteversion, femoral offset, hip center shift, and leg length. Multiple linear regression identified factors influencing alignment changes. Femoral anteversion emerged as a key independent determinant affecting valgus alignment of the operative leg and lateral patellar tilt. Increased femoral offset and diagnosis of hip OA were also associated with alignment changes, while contralateral alignment was influenced by ipsilateral HKAA changes and patient age. These findings suggest that increased femoral anteversion following THA may mitigate excessive varus loading and protect against secondary knee OA. Accurate control of anteversion, supported by navigation or artificial intelligence (AI)-assisted planning, could optimize postoperative biomechanical balance and long-term outcomes.