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Biomechanical Investigation to Establish Stable Fixation Strategies for Distal Tibial Fractures in Various Situations: Finite Element Analysis Studies
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Sung Hun Yang, Jun Young Lee, Gu-Hee Jung, Hyoung Tae Kim, Ba Woo Ko
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J Korean Fract Soc 2024;37(2):71-81. Published online April 30, 2024
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DOI: https://doi.org/10.12671/jkfs.2024.37.2.71
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 Abstract
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- Purpose
This study examined the structural and mechanical stability as well as the clinical significance of various fixation constructs for distal tibial fractures using finite element analysis.
Materials and Methods
Fracture models with 20 mm and 120 mm defects were produced, and implants of an intramedullary nail and anatomical plate model were applied. An axial load of 800 N with 60% distribution in the medial compartment and 40% in the lateral compartment was applied and analyzed using Ansys ® software.
Results
In the intramedullary nail model, the maximum von Mises stress occurred at the primary lag screw hole and adjacent medial cortex, while in the plate model, it occurred at the locking holes around the fracture. The maximum shear stress on the bone and metal implant in the fracture model with a 20 mm defect was highest in the plate assembly model, and in the fracture model with a 120 mm defect, it was highest in the two-lag screw assembly model.
Conclusion
Based on an analysis of the maximum shear stress distribution, securing the fixation strength of the primary lag screw hole is crucial, and the assembly model of the intramedullary nail with two lag screws and a blocking screw applied was the model that best withstood the optimal load. Securing the locking hole directly above the fracture is believed to provide the maximum fixation strength because the maximum pressure in the plate model is concentrated in the proximal locking hole and the surrounding cortex.
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Comparison of Surgical Outcomes for Lisfranc Joint Injuries: Dorsal Bridge Plating versus Transarticular Screw versus Combination
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Ba Rom Kim, Jun Young Lee, Sung Hun Yang, Seung Hyun Lee
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J Korean Fract Soc 2023;36(1):17-24. Published online January 31, 2023
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DOI: https://doi.org/10.12671/jkfs.2023.36.1.17
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Abstract
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- Purpose
In Lisfranc joint injury, the traditional treatment has been open reduction and internal fixation with a transarticular screw. Despite this, additional complications, such as damage to the articular surface and breakage of the screw, have been reported. Therefore, this study compared the clinical and radiological outcomes of dorsal bridge plating with those of transarticular screws and combination treatment in Lisfranc joint injury.
Materials and Methods
Among the 43 patients who underwent surgical treatment due to Lisfranc joint injury from June 2015 to March 2021, 40 cases followed for more than six months after surgery were analyzed, excluding three patients: one lost to follow-up, one had to amputate, and one expired. The radiological parameters were measured using the Wilppula classification in the last follow-up. The clinical outcomes were evaluated using the American Orthopaedic Foot and Ankle Society (AOFAS) midfoot score.
Results
The AOFAS midfoot score, according to the surgical method, was significantly higher in the dorsal bridge plating (p=0.003). The radiological outcomes showed significantly better anatomical reduction when dorsal bridge plating was used (p=0.040). According to the Wilppula classification, the AOFAS midfoot score improved as the quality of anatomical reduction improved (p=0.018). Finally, the AOFAS midfoot score decreased as the number of column fixations increased (p=0.002). There were two complications: screw breakage in dorsal bridge plating and superficial skin necrosis in the combination treatment. Skin defects caused by necrosis improved after negative pressure wound therapy and split-thickness skin graft.
Conclusion
In treating Lisfranc joint injuries, open reduction and internal fixation by dorsal bridge plating can be an appropriate treatment option. Nevertheless, studies, such as long-term follow-up research, on complications, such as osteoarthritis, will be needed.
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Intra-Articular Alterations after Suprapatellar Nailing in Tibial Shaft Fractures: An Arthroscopic Evaluation
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GwangChul Lee, Sung Hun Yang, Sung Min Jo, Jeong Min Kook
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J Korean Fract Soc 2022;35(4):129-134. Published online October 31, 2022
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DOI: https://doi.org/10.12671/jkfs.2022.35.4.129
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Abstract
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- Purpose
This study attempted to study the intra-articular changes due to intramedullary nailing through the suprapatellar approach by evaluating the joint cartilage damage and presence of foreign bodies through a comparison of the pre- and post-operative status evaluated by knee arthroscopy.
Materials and Methods
This retrospective study analyzed fifteen patients who underwent intramedullary nailing through the suprapatellar approach for proximal tibial shaft fracture from January 2017 to March 2020. The condition of the joint cartilage and the presence of foreign substances in the patellofemoral joint were evaluated. The cartilage status of the patellofemoral joint was evaluated using the International Cartilage Repair Society (ICRS) grading system. Data from the ICRS grading and the visual analogue scale (VAS) scores of the femoral and patellar cartilage were compared to each independent variable surveyed.
Results
All the intra-articular structures before nailing were normal. In all cases after nailing, articular cartilage damage of the patellofemoral joint and intra-articular debris were observed. The average VAS score was 0.6 (0-1) before surgery and 2.27 (0-4) after surgery. There were no statistically significant differences except for the correlation in the diameter of the tibia nail and femoral ICRS grade (p=0.001) and the damage to the cartilage was greater in the femoral cartilage than that to the patella (p=0.001).
Conclusion
Intra-articular damage appears to be unavoidable in suprapatellar nailing. Further research is needed on the long-term effects of intra-articular damage and on methods to reduce this damage.
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