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Original Article
- Percutaneous anterior leverage technique for anteromedial cortical support in intertrochanteric femur fractures: a computed tomography-based validation study
- Whee Sung Son, Bum Jin Shim, Oog-jin Shon
- Received September 24, 2025 Accepted December 10, 2025 Published online March 27, 2026
- DOI: https://doi.org/10.12671/jmt.2025.00311 [Epub ahead of print]
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Abstract
PDF - Background
Anteromedial cortical support (AMCS) enhances stability in intertrochanteric femur fractures. However, reproducible, validated methods of achieving AMCS have not previously been reported. This study introduces a percutaneous anterior leverage technique and validates its AMCS effects using computed tomography (CT).
Methods
We retrospectively reviewed patients treated by a single surgeon between March 2022 and December 2024. The inclusion criteria were an AO/OTA classification of A1–A3, application of the percutaneous anterior leverage technique, available pre- and postoperative CT, and ≥6 months follow-up. Outcomes included CT-based AMCS (anterior on axial and medial on coronal images, classified as positive, neutral, or negative), time to union, union rate, changes in neck-shaft angle, and treatment failure (varus collapse, blade cut-through, or nonunion without the former two). The risk factors for failure were analyzed.
Results
Of 273 patients reviewed, 53 met the inclusion criteria. Follow-up was at least 6 months in all cases. Positive anterior support was achieved in 37 patients (69.8%) and positive medial support in 42 (79.25%). No patient demonstrated negative anterior support; one (1.9%) had negative medial support. Cortical support improved significantly after surgery. CT images demonstrated significant postoperative improvements (anterior P=0.026; medial P<0.001). Bone union was achieved in 50 patients (94.34%) at a mean of 3.93±1.48 months. The mean change in the neck-shaft angle at last follow-up was 1.75°±2.34° varus. Three patients (5.66%) experienced treatment failure. Anteromedial cortical breakage during follow-up differed between failure and non-failure groups (P=0.002), but regression identified no independent predictors. No technique-related complications were observed.
Conclusions
Our percutaneous anterior leverage technique produced favorable CT-confirmed AMCS and high union with low failure, supporting its safety and effectiveness in intertrochanteric femur fractures. Level of evidence: IV.
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