Tibial diaphyseal malunion: A problem-oriented approach to assessment and correction.

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Abstract

Tibial shaft fractures are the most common long bone injuries, and malunion remains a significant complication despite advances in fixation. Tibial diaphyseal malunion is typically multiplanar, involving coronal, sagittal, rotational, and translational deformities with limb shortening, leading to altered biomechanics, abnormal joint loading, and potential degenerative changes. Biomechanical studies suggest that coronal deformity exceeding 5°, rotational deformity ≥10° and shortening ≥10 mm also increase the risk of joint degeneration, although long-term clinical correlations remain variable. Assessment requires integration of clinical evaluation, full-length standing radiographs, and computed tomography, with three-dimensional (3D) imaging improving detection of complex deformities. The centre of rotation of angulation (CORA) remains fundamental to deformity analysis and surgical planning. Corrective strategies include closing and opening wedge, dome, oblique, and clamshell osteotomies, stabilised with intramedullary nails, plates, or hexapod external fixators, each with specific advantages and limitations. Selection is guided by deformity pattern, soft tissue status, patient age, functional demands, and adjacent joint condition. Reported union rates range from 92% to 100%. This narrative review synthesises current evidence on the assessment and surgical management of tibial diaphyseal malunion, presents a structured decision-making algorithm, and illustrates key principles through clinical case examples. Emerging technologies including 3D planning, patient-specific instrumentation, and artificial intelligence-assisted workflows are discussed. High-quality prospective data remain limited, underscoring the need for standardised protocols and future research.

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