The Quadrilateral Plate in Acetabular Fracture Surgery: What Is It and When Should It Be Addressed?

Use of calcaneal locking plate in surgical treatment of quadrilateral plate fractures of the acetabulum

PURPOSE

Specialized devices for fixation of the acetabulum quadrilateral plate (QP) fractures may not be readily available in resource-constrained settings. In this article, we aim to explore the use of a 3.5-mm locking calcaneal plate in fixation of QP fractures.

METHODS

Twenty-eight patients with QP fractures underwent surgery using the modified Stoppa approach. Follow-up at 12 months assessed fracture healing and functional outcomes using the Majeed pelvic outcome score. Descriptive statistics summarized patient demographics and fracture characteristics. Analysis of variance (ANOVA) and exact logistic regression explored associations between factors (age, AO/OTA classification, gender, and time to surgery) and Majeed scores.

RESULTS

The mean age of patients was 42.71 years, with the majority being male (64.29%). All patients achieved bony union. Post-traumatic arthritis developed in three patients, while two patients experienced post-operative fracture redisplacement. Evaluation using the Majeed pelvic outcome score revealed generally favorable outcomes, with 32.14% achieving excellent, 39.29% good, 21.43% fair, and 7.14% poor outcome. Only an older age was associated with a worse outcome score (excellent/good versus fair/poor, odds ratio: 0.87, 95% confidence interval: 0.77, 0.96).

CONCLUSION

Surgical management of quadrilateral plate fractures using 3.5-mm locking calcaneal plates demonstrates promising outcomes, particularly in resource-constrained settings, where specialized devices may be lacking.

Progress of fracture mapping technology based on CT three-dimensional reconstruction

Fracture Mapping is a new technology developed in recent years. This technology visually representing the morphology of fractures by overlaying fracture lines from multiple fracture models onto a standard model through three-dimensional reconstruction. Fracture mapping has been widely used in acetabular fracture, proximal humerus fractures, Pilon fracture, tibial plateau fractures, and so on. This technology provides a new research method for the diagnosis, classification, treatment selection, internal fixation design, and statistical analysis of common fracture sites. In addition, the fracture map can also provide a theoretical basis for the establishment of a biomechanical standardized fracture model. Herein, we reviewed various methods and the most advanced techniques for fracture mapping, and to discuss the issues existing in fracture mapping techniques, which will help in designing future studies that are closer to the ideal. Moreover, we outlined the fracture morphology features of fractures in various parts of the body, and discuss the implications of these fracture mapping studies for fracture treatment, thereby providing reference for research and clinical decision-making on bone and joint injuries to improve patient prognosis.

Finite element analysis of the use of two new types of internal fixation for acetabular fractures

BACKGROUND

Both-column fracture is a common type of acetabular fracture and is sometimes accompanied by a comminuted fracture of the quadrilateral area. Such fractures are difficult to anatomically reduce and securely fix. In this study, the authors compared the application value and mechanical properties of the Bespoke 3D-printed titanium alloy plates and Union Plate in acetabular both-column fractures.

METHODS

A both-column fracture model of the acetabulum was established, and the Bespoke 3D-printed titanium alloy plates, Union Plate and a common reconstruction plate were used for fixation. External loads were applied to the model at different angles, and the effects on the plates and the stress and displacement of the screws were determined.

RESULTS

Under different states of hip joint activity, the maximum stress experienced by the Bespoke 3D-printed titanium alloy plates and Union Plate was significantly smaller than the maximum stress experienced by the common reconstruction plate. The Bespoke 3D-printed titanium alloy plates experienced the lowest maximum stress under different hip joint motions. There was no statistically significant difference between the maximum displacement of the Bespoke 3D-printed titanium alloy plates and Union Plate and that of the common reconstructed plate.

CONCLUSIONS

The design of the Bespoke 3D-printed titanium alloy plates imparts a smaller maximum stress and better mechanical properties when repairing acetabular both-column fractures.

Closed Reduction Technique for Acetabular Fractures with Femoral Head Protrusion and Concomitant Superolateral Impaction: A Case Report

CASE

Closed reduction of acetabular fractures with femoral head protrusion and superolateral femoral head impaction may be challenging because the intact acetabular roof may block anatomic reduction with traditional maneuvers. We report the use of a 5-step technique for this unique pattern: medializing force to disengage the femoral head, axial traction to clear the intact ilium, lateralizing force to center the head underneath the acetabular roof, confirmation of femoral head stability, and skeletal traction placement.

CONCLUSION

Acetabular fractures with femoral head protrusion and concomitant superolateral impaction may be reduced with an initial medializing force followed by axial and lateralizing forces.

A new classification for quadrilateral plate fracture of acetabulum

BACKGROUND

Recently, quadrilateral plate (QLP) fractures of acetabulum have attracted increasing attention. However, evidence for the appropriate classification of QLP fractures is still lacking, making it difficult to understand and manage these fractures. This study aimed to introduce a new classification for QLP fractures and evaluate its reproducibility.

METHODS

A series of 1101 consecutive patients with acetabular fractures from 8 level-I trauma centers were enrolled in this study. All patients underwent preoperative radiograph and computed tomography imaging. QLP fractures were identified and classified using the new and Judet-Letournel classification system. The inter- and intra-observer reliabilities (kappa coefficients, κ) of these two systems were investigated by 4 observers. Furthermore, surgical approaches and fixation methods for each fracture type are described.

RESULTS

In total, 243 (243/1101, 22%) patients with QLP fractures were identified and included in this analysis. The mean κ value of the intra-observer reliability was 0.84 (range, 0.763-0.919) for the new classification, indicating excellent agreement, and the inter-observer reliability was 0.762 (range, 0.625-0.876), indicating substantial agreement. The values were 0.649 (range, 0.523-0.708) and 0.584 (0.497-0.646), respectively, according to the Judet-Letournel classification. Six cases (6/243, 2.5%) could not be classified using the Judet-Letournel classification. The selection of surgical approaches and fixation methods depends on the fracture type; however, an anterior intra-pelvic approach and buttressing fixation using the plate or screw are preferred for QLP fractures.

CONCLUSION

This study presents a new classification for QLP fractures, showing higher intra- and inter-observer reliabilities than those obtained using the Judet-Letournel classification. This allowed us to obtain an in-depth and comprehensive understanding of QLP fractures. Additionally, the new classification might guide further studies on surgical strategies for QLP fractures.

LEVEL OF EVIDENCE

Level II.

Quadrilateral plate fractures of the acetabulum: Classification, approach, implant therapy and related research progress

The quadrilateral plate (QP) is an essential structure of the inner wall of the acetabulum, an important weight-bearing joint of the human body, which is often involved in acetabular fractures. The operative exposure, reduction and fixation of QP fractures have always been the difficulties in orthopedics due to the special morphological structure and anatomical features of the QP. Fortunately, there have been many effective methods and instruments developed for QP exposure, reduction and fixation by virtue of the combined efforts of numerous orthopedists. At the same time, each method presents with its own advantages and disadvantages, resulting in different prognoses. It is necessary to have a thorough understanding of the anatomy, radiology and fixation techniques of the QP in terms of patient prognosis optimization. In this paper, the anatomical features, definition and classification of QP, operative approach selection, implant internal fixation methods and efficacy were reviewed.