Journal of Musculoskeletal Trauma

Case Report

Single Percutaneous Retrograde Anterior Column Screw Fixation in a Minimally Displaced Transverse Acetabular Fracture - A Case Report -: Seungyup Shin, Jinkyu Park, Sungho Lee; J Korean Fract Soc 2023;36(2):57-61. Published online April 30, 2023; DOI: https://doi.org/10.12671/jkfs.2023.36.2.57

Abstract PDF: According to the Letournel classification, a transverse fracture is the only elementary fracture pattern that breaks both the anterior and posterior border of the innominate bone. A transverse acetabular fracture separates the innominate bone into two segments: the iliac segment and the ischiopubic segment. Therefore, minimally displaced transverse fractures can be stabilized by purchasing both segments with a large-diameter single screw. Although it is not a stable internal fixation construct compared with plates and screws, it provides sufficient stability to promote early mobilization and early weight-bearing while minimizing the risk of secondary displacement and preventing secondary complications associated with prolonged bed rest and immobilization. The authors successfully treated a case of minimally displaced transverse acetabular fracture with percutaneous column fixation using a retrograde fashion of a single anterior column screw. This report discusses the case with a literature review and deliberates the usefulness of the procedure.

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Original Article

Simulation for Reduction of Transverse Acetabular Fractures in Sawbones Models: Seongeun Byun, Cyril Mauffrey, Jehyun Yoo, Changwon Park, Jihyo Hwang; J Korean Fract Soc 2019;32(4):196-203. Published online October 31, 2019; DOI: https://doi.org/10.12671/jkfs.2019.32.4.196

PURPOSE
The transversely oriented fracture lines are very difficult to reduce during operations, even after clear exposure of the fracture site, in acetabular fractures. The purpose of this study is to verify the quality of reduction between the different subtypes (transtectal, juxtatectal, and infratectal) of transverse fractures. This study also determined the proper type of clamps to use and the proper zone for achieving accurate reductions in Sawbones models.
MATERIALS AND METHODS
Six fractures in 3 different subtypes of transverse fractures were artificially created. Ten different reduction clamps were applied for reduction of the fractures. Twelve holes around the fracture were drilled for the maintenance of the clamps. The fracture displacements were measured at the extra-articular area and the intra-articular joint portion. The pictures of the intra-articular fracture displacements were taken by a camera and these were uploaded and analyzed by the TraumaCadÂ® computer program (Brainlab).
RESULTS
The reduction quality was poor in order of transtectal, juxtatectal and infratectal. The intraarticular opening was more prominent in the transtectal subtype. The safe zone, when giving consideration of the neurovascular bundles, was a quadrilateral surface of the ilium. Drill holes are useful for maintenance of the reduction clamps. Reduction clamps with points (Weber clamp) were the best for maintenance and accurate reduction. Regarding the concerns of placement of clamps, the middle to posterior combination was the best. The upper hole among the posterior holes in the ilium was the most likely to well reduce the intra-articular opening.
CONCLUSION
Transtectal was the more complicated subtype in the aspect of reduction quality. The Weber type reduction clamp was the best for reduction by centrally located holes in the quadrilateral surface and posteriorly located iliac holes in transverse acetabular fractures. The upper hole, among the posterior holes in the ilium, was the best for reduction of the fracture displacements in the intraarticular portion of acetabulum.

Citations

Citations to this article as recorded by

Surgical outcomes of transverse acetabular fractures and risk factors for poor outcomes
Jae Hoon Jang, Nam Hoon Moon, Seung Joon Rhee, Seok Jin Jung, Tae Young Ahn
BMC Musculoskeletal Disorders.2021;[Epub] CrossRef

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