LEG LENGTH CHANGE AFTER OPEN-WEDGE HIGH TIBIAL OSTEOTOMY ON 3D PREOPERATIVE PLANNING SOFTWARE

Yamamuro Y, Kabata T, Kajino Y, et al. LEG LENGTH CHANGE AFTER OPEN-WEDGE HIGH TIBIAL OSTEOTOMY ON 3D PREOPERATIVE PLANNING SOFTWARE. Orthop Procs. 2020;102-B(SUPP_2):65-65. doi:10.1302/1358-992X.2020.2.065

Yamamuro, Y., et al. “LEG LENGTH CHANGE AFTER OPEN-WEDGE HIGH TIBIAL OSTEOTOMY ON 3D PREOPERATIVE PLANNING SOFTWARE.” Orthopaedic Proceedings, vol. 102-B, no. SUPP_2, 2020, pp. 65-65., https://doi.org/10.1302/1358-992X.2020.2.065

Yamamuro, Y., Kabata, T., Kajino, Y., Inoue, D., Ohmori, T., Ueno, T., Yoshitani, J., Ueoka, K., & Tsuchiya, H. (2020). LEG LENGTH CHANGE AFTER OPEN-WEDGE HIGH TIBIAL OSTEOTOMY ON 3D PREOPERATIVE PLANNING SOFTWARE. Orthopaedic Proceedings, 102-B(SUPP_2), 65-65. https://doi.org/10.1302/1358-992X.2020.2.065

Yamamuro, Y., Kabata, T., Kajino, Y., Inoue, D., Ohmori, T., Ueno, T. et al. (2020) “LEG LENGTH CHANGE AFTER OPEN-WEDGE HIGH TIBIAL OSTEOTOMY ON 3D PREOPERATIVE PLANNING SOFTWARE.” Orthopaedic Proceedings, 102-B(SUPP_2), pp. 65-65. Available at: https://doi.org/10.1302/1358-992X.2020.2.065

Yamamuro, Y., T. Kabata, Y. Kajino, D. Inoue, T. Ohmori, T. Ueno, J. Yoshitani, K. Ueoka, and H. Tsuchiya. “LEG LENGTH CHANGE AFTER OPEN-WEDGE HIGH TIBIAL OSTEOTOMY ON 3D PREOPERATIVE PLANNING SOFTWARE.” Orthopaedic Proceedings 102-B, no. SUPP_2 (2020): 65-65. https://doi.org/10.1302/1358-992X.2020.2.065

Yamamuro Y, Kabata T, Kajino Y, Inoue D, Ohmori T, Ueno T, et al. LEG LENGTH CHANGE AFTER OPEN-WEDGE HIGH TIBIAL OSTEOTOMY ON 3D PREOPERATIVE PLANNING SOFTWARE. Orthop Procs. 2020 Feb 1;102-B(SUPP_2):65-65. https://doi.org/10.1302/1358-992X.2020.2.065

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Abstract

Objective

Open-wedge high tibial osteotomy (OWHTO) involves performing a corrective osteotomy of the proximal tibia and removing a wedge of bone to correct varus alignment. Although previous studies have investigated changes in leg length before and after OWHTO using X-rays, none has evaluated three-dimensional (3D) leg length changes after OWHTO. We therefore used 3D preoperative planning software to evaluate changes in leg length after OWHTO in three dimensions.

Methods

The study subjects were 55 knees of 46 patients (10 men and 36 women of mean age 69.9 years) with medial osteoarthritis of the knee or osteonecrosis of the medial femoral condyle with a femorotibial angle of >185º and restricted range of motion (extension <–10º, flexion <130º), excluding those also suffering from patellofemoral arthritis or lateral osteoarthritis of the knee. OWHTO was simulated from computed tomography scans of the whole leg using ZedHTO 3D preoperative planning software. We analyzed the hip-knee-ankle angle (HKA), flexion contracture angle (FCA), mechanical medial proximal tibial angle (mMPTA), angle of correction, wedge length, 3D tibial length, 3D leg length, and 3D increase in leg length before and after OWHTO. We also performed univariate and multivariate analysis of factors affecting the change in leg length (preoperative and postoperative H-K-A angle, wedge length, and correction angle).

Results

Mean HKA increased significantly from −4.7º ± 2.7º to 3.5º ± 1.3º, as did mean mMPTA from 83.7º ± 3.3º to 92.5º ± 3.0º (p <0.01). Mean FCA was 4.7º ± 3.6° preoperatively and 4.8º ± 3.3º postoperatively, a difference that was not significant (p = 0.725). The mean correction angle was 9.1º ± 2.8º and the mean wedge length was 9.4º ± 3.2º mm. Mean tibial length increased significantly by 4.7 ± 2.3 mm (p <0.01), and mean leg length by 5.6 ± 2.8 mm (p <0.01). The change in leg length was strongly correlated with wedge length (R = 0.846, adjusted R²= 0.711, p <0.01).

Discussion and Conclusion

Mean 3D leg length after OWHTO increased significantly by 5.4 ± 3.1 mm. A difference in leg length of >5 mm is believed to affect back pain and gait abnormalities, and changes in leg length must therefore be taken into consideration. The 3D dimensional change in leg length was strongly correlated with wedge length, and could be predicted by the formula (change in leg length in mm) = [(wedge length in mm) ×0.75) − 1.5].

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