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Successful reconstruction and functional recovery of a pediatric medial malleolus defect in an 8-year-old girl using autologous iliac crest bone grafting in Korea: a case report
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Sung Yoon Jung, Dong-hee Kim, Sang-Hyun Lee, Ki-Hun Kim
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Received January 15, 2026 Accepted March 4, 2026 Published online April 8, 2026
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DOI: https://doi.org/10.12671/jmt.2026.00059
[Epub ahead of print]
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 Abstract
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- An 8-year-old girl presented after a traffic accident with a severe crush and degloving injury of the medial right ankle and foot, a distal tibiofibular fracture, and medial midfoot bone defects. After staged irrigation and debridement with temporary external fixation, definitive reconstruction was performed on August 6, 2016. The medial malleolar defect (2.5×2.0 cm) was reconstructed using a contoured autologous iliac crest bone graft secured with internal fixation, and medial stability was augmented using harvested gluteal fascia as a deltoid ligament substitute fixed with suture anchors. A bone-cement spacer was placed adjacent to the injured physis to mitigate physeal bridging, and the extensive soft-tissue defect was covered with a free anterolateral thigh flap and skin graft. During follow-up, progressive varus deformity and contracture were managed with corrective osteotomy and plating, Achilles tendon lengthening, Z-plasty, and Ilizarov fixation. At the final follow-up (March 6, 2025), the limb-length discrepancy was 5 mm, active ankle dorsiflexion was 0° (passive dorsiflexion 5°), and the patient was pain-free with full participation in daily activities, including hiking and dancing. This case emphasizes the value of an integrated staged strategy that combines bony reconstruction, medial stabilization, physeal management, and durable soft-tissue coverage during skeletal growth.
Level of evidence: IV.
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Current concepts and applications of internal fixation for forearm diaphyseal fractures
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Sung Yoon Jung, Min Kyun Cho, Dong-hee Kim, Sang Hyun Lee
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Received January 30, 2026 Accepted May 11, 2026 Published online May 22, 2026
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DOI: https://doi.org/10.12671/jmt.2026.00087
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Abstract
- Adult diaphyseal fractures of the forearm functionally behave as intra-articular injuries because forearm rotation depends on accurate restoration of length, axial alignment, rotation, and the native radial bow. This narrative review summarizes contemporary surgical options for adult forearm shaft fractures, including 3.5-mm plate osteosynthesis, dual mini-plate fixation, interlocking intramedullary nailing, and minimally invasive plate osteosynthesis (MIPO). Compression plating with 3.5-mm plates remains the reference standard for most fracture patterns, whereas other techniques should be regarded as selective, emerging, or salvage options according to their indication spectrum and evidence base. Mini-fragment dual plating may be useful for short segments or thin soft-tissue envelopes, although the supporting clinical evidence remains limited and meticulous biomechanical execution is essential. Interlocking intramedullary nailing is a viable alternative for carefully selected simple fracture patterns or soft-tissue-compromised situations, offering less invasive exposure but a narrower indication spectrum. MIPO may be considered for selected comminuted or soft-tissue-compromised diaphyseal fractures; however, its use in adult forearm fractures remains constrained by the high functional requirement for precise restoration of length, rotation, and the radial bow. To improve transparency, this review explicitly distinguishes established, evidence-supported methods from techniques supported mainly by limited retrospective data or institutional experience. A pattern-based pragmatic algorithm and expanded comparison table are provided to guide fixation selection according to the bone involved, fracture location, fracture morphology, soft-tissue condition, and evidence tier while minimizing complications such as nonunion, infection, nerve injury, refracture after plate removal, and radioulnar synostosis.
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