Bone Transport Versus Acute Shortening for the Management of Infected Tibial Non-unions with Bone Defects

Overview

Journal Injury

Publisher Elsevier

Specialty Emergency Medicine

Date 2017 Jul 24

PMID 28734494

Citations 60

Authors

Kevin Tetsworth

Dror Paley

Cengiz Sen

Matthew Jaffe

Dean C Maar

Vaida Glatt

Erik Hohmann

John E Herzenberg

Affiliations

Soon will be listed here.

Abstract

Introduction: This study compared bone transport to acute shortening/lengthening in a series of infected tibial segmental defects from 3 to 10cm in length.

Methods: In a retrospective comparative study 42 patients treated for infected tibial non-union with segmental bone loss measuring between 3 and 10cm were included. Group A was treated with bone transport and Group B with acute shortening/lengthening. All patients were treated by Ilizarov methods for gradual correction as bi-focal or tri-focal treatment; the treating surgeon selected either transport or acute shortening based on clinical considerations. The principle outcome measure was the external fixation index (EFI); secondary outcome measures included functional and bone results, and complication rates.

Results: The mean size of the bone defect was 7cm in Group A, and 5.8cm in Group B. The mean time in external fixation in Group A was 12.5 months, and in Group B was 10.1 months. The external fixation index (EFI) measured 1.8 months/cm in Group A and 1.7 months/cm in Group B (P=0.09). Minor complications were 1.2 per patient in the transport group and 0.5 per patient in the acute shortening group (P=0.00002). Major complications were 1.0 per patient in the transport group versus 0.4 per patient in the acute shortening group (P=0.0003). Complications with permanent residual effects (sequelae) were 0.5 per patient in the transport group versus 0.3 per patient in the acute shortening group (P=0.28).

Conclusions: While both techniques demonstrated excellent results, acute shortening/lengthening demonstrated a lower rate of complications and a slightly better radiographic outcome. Bone grafting of the docking site was often required with both procedures.

Level Of Evidence: Level III; Retrospective comparative study.

Citing Articles

Cable-asisted bone transport versus circular external fixators-asisted bone transport in the management of bone defects of the Tibia: clinical and imaging results.

Alibakan G, Kanar M, Armagan R, Sulek Y, Altuntas Y, Eren O J Orthop Surg Res. 2025; 20(1):264.

PMID: 40069761 PMC: 11899003. DOI: 10.1186/s13018-025-05648-9.

The mechanical test as a supplemental decision support tool for the safe removal of an Ilizarov circular external fixator.

Xu Y, Liu J, Yang J, Zhang T, Li Z, Liu Y Eur J Med Res. 2025; 30(1):83.

PMID: 39920873 PMC: 11804065. DOI: 10.1186/s40001-024-02258-9.

Global Research Hotspots and Trends in Advances of the Ilizarov Technique: A Bibliometric Mapping.

Wang X, Lu F, Wang W, Zhi X Orthop Surg. 2025; 17(3):663-676.

PMID: 39887641 PMC: 11872365. DOI: 10.1111/os.14325.

Effective Compression and a Minimally Invasive Rail Plate to Optimize Bone Transport in Distraction Osteogenesis: New Concepts.

Lopez-Carreno E, Avendano E, Rojas L, Martinez-Castellanos A, Rodriguez I, Lopez C JB JS Open Access. 2024; 9(4).

PMID: 39629264 PMC: 11596425. DOI: 10.2106/JBJS.OA.23.00144.

Integrating 3D-printed customized guides with hemicorticotomy bone transport: clinical outcomes in chronic osteomyelitis management.

Hamiti Y, Abudureyimu P, Lyu G, Zhang J, Xu X, Yusufu A BMC Musculoskelet Disord. 2024; 25(1):907.

PMID: 39538230 PMC: 11562308. DOI: 10.1186/s12891-024-08028-2.