Dual plating for fixation failure of the distal femur: Finite element analysis and a clinical series
Issued Date
2023-01-01
Resource Type
ISSN
13504533
eISSN
18734030
Scopus ID
2-s2.0-85142668425
Pubmed ID
36792233
Journal Title
Medical Engineering and Physics
Volume
111
Rights Holder(s)
SCOPUS
Bibliographic Citation
Medical Engineering and Physics Vol.111 (2023)
Suggested Citation
Jitprapaikulsarn S., Chantarapanich N., Gromprasit A., Mahaisavariya C., Sukha K., Chiawchan S. Dual plating for fixation failure of the distal femur: Finite element analysis and a clinical series. Medical Engineering and Physics Vol.111 (2023). doi:10.1016/j.medengphy.2022.103926 Retrieved from: https://repository.li.mahidol.ac.th/handle/123456789/81858
Title
Dual plating for fixation failure of the distal femur: Finite element analysis and a clinical series
Author's Affiliation
Other Contributor(s)
Abstract
Background:: The optimal technique for managing distal femur fixation failure remains inconclusive. The author studied the efficacy of a combined proximal humerus locking compression plate (LCP-PH) and 3.5 mm reconstruction plate (LCP-RP) by finite element (FE) analysis and retrospectively described the clinical outcomes of the present technique in such difficult circumstances. Methods:: Biomechanical study setting included FE models of the distal femur with remaining holes from previous distal femur LCP (LCP-DF) fixation stabilized with three different constructs i.e., LCP-DF alone, LCP-DF-and-LCP-RP, as well as LCP-PH-and-LCP-RP. All settings were analyzed by using FE under physiological loads. Regarding the clinical series, the outcomes of 8 LCP-DF fixation failures operated on by the present technique were retrospectively reviewed. Results:: High Implant stress of 911.2 MPa and elastic strain at fracture site of 200.8 µɛ were found when stabilized with LCP-DF. The constructs of LCP-DF-and-LCP-RP, and LCP-PH-and-LCP-RP presented lower implant stress compared to LCP-DF, 511.5, and 617.5 MPa, respectively. The elastic strain of both dual plating constructs was also 4–5 times lower than LCP-DF and differed from each other by approximately 10 µɛ. Regarding the clinical series, bony consolidation was achieved in all cases with a mean duration of 28.5 weeks (range 24–36). An average ROM of the affected knee was 115° (range 105–140). Regarding the KSS, 1 was determined to be excellent and 7 to be good. Conclusion:: By the biomechanical analysis and the clinical results, the construct of LCP-PH-and-LCP-RP could be an effective technique for revision surgery of LCP-DF fixation failure.