Radiographic Accuracy of Identifying Anterolateral Tibial Plafond Involvement in Pronation Abduction Ankle Fractures
- PMID: 39292811
- DOI: 10.1097/BOT.0000000000002911
Radiographic Accuracy of Identifying Anterolateral Tibial Plafond Involvement in Pronation Abduction Ankle Fractures
Abstract
Objectives: To evaluate the incidence of anterolateral tibial plafond involvement in pronation-abduction (PAB) ankle fractures and analyze the accuracy of radiographs in detecting anterolateral tibial plafond involvement, impaction, and predicting the need for direct visualization and an articular reduction.
Design: A multi-institutional retrospective chart review.
Setting: Five Level 1 trauma centers in the United States.
Patient selection criteria: Adult patients with PAB ankle fractures (OTA/AO 44B2.3, 44C2.2, 44C2.3) from 2020 to 2022 were reviewed by 7 fellowship-trained orthopaedic trauma surgeons. They were queried about the presence of anterolateral tibial plafond involvement and impaction, and whether they would need direct visualization and an articular reduction using both radiographs and CT.
Outcome measurements and comparisons: The presence of anterolateral tibial plafond impaction was tabulated separately using radiographs and CT scans. The accuracy of radiographs and changes in surgical plan after CT review were calculated using CT as the gold standard.
Results: Sixty-one fractures in 61 patients were evaluated using CT and/or plain radiographs. Using plain radiographs, anterolateral tibial plafond involvement and impaction were identified in 61% and 36% of cases, respectively. In the 38 fractures with both plain radiographs and CT scans, anterolateral tibial plafond involvement was identified in 66% of radiographs and 74% of CT scans ( P = 0.4). Plafond impaction was identified in 42% of plain radiographs and 37% of CT scans ( P = 0.62). There was no difference in the rate of involvement between radiographs and CT scan. The diagnosis of anterolateral tibial plafond impaction using plain radiographs was correct in 74% of fractures when compared with using CT imaging, resulting in a sensitivity of 71%, a specificity of 75%, a positive predictive value (PPV) of 62%, and a negative predictive value (NPV) of 82%. Plain radiographs correctly predicted the need for direct visualization and an articular reduction in 74% of cases and had a PPV of 59% and an NPV of 86%.
Conclusions: Anterolateral tibial plafond involvement and impaction were present on CT in 74% and 37% of pronation-abduction (PAB) ankle fractures, respectively. Plain radiographs had higher NPV for identifying impaction and the need for articular reduction than they did sensitivity, specificity, or PPV. CT is an important tool for preoperative planning that should be considered when planning for operative fixation of PAB ankle fractures.
Level of evidence: Diagnostic Level III. See Instructions for Authors for a complete description of levels of evidence.
Copyright © 2024 Wolters Kluwer Health, Inc. All rights reserved.
Conflict of interest statement
The authors report no conflict of interest.
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