The Role of Taylor Spatial Frame in the Treatment of Blount Disease

Tsibidakis, Haridimos; Panou, Artemisia; Angoules, Antonios G; Sakellariou, Vassilios I; Portinaro, Nicola; Krumov, Julian; Kanellopoulos, Anastasios D.

doi:10.1515/folmed-2017-0082

Cited by 11 publications

(8 citation statements)

References 32 publications

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“…As being the pioneer hexapod external fixator system, TSF has been studied in varying studies [4,5,7,[23][24][25][26][27]. Nevertheless, the SCF was introduced on the market in 2010, and came up with various unique features such as not being dependent of mounting parameters but only a few studies investigated this device [3,16,28].…”

Section: Discussionmentioning

confidence: 99%

Accuracy of the hexapod external fixator in treating tibial angular deformities with or without limb length discrepancy: a retrospective study

Danışman

Yılmaz

Özdemir

et al. 2023

Journal of Pediatric Orthopaedics B

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Objective Hexapod external fixator systems allow simultaneous deformity correction in multiple planes as well as limb lengthening. The aim of this study is to evaluate the accuracy of a hexapod frame (smart correction frame) in different types of tibial deformities requiring correction with or without lengthening. Methods A total of 54 tibial angular deformities and limb length discrepancies operated with a hexapod frame between January 2015 and January 2021 were classified into four groups: “Group A (n = 13): only lengthening,” “Group B (n = 14): lengthening and uniplanar correction,” “Group C (n = 16): only uniplanar correction,” and “Group D (n = 11): biplanar correction.” The accuracy of angular deformity correction/lengthening was calculated by dividing the actual correction/lengthening achieved after frame removal by the preoperative planned lengthening/correction. Results The lengthening accuracy in Group A and Group B was 96.3 ± 7.1% and 95.7 ± 5.9%, respectively (P = 0.685). The angular deformity correction accuracy was 85.1 ± 9.9% for Group B, 85.2 ± 13.9% for Group C, and 80.2 ± 18.4% for Group D (P = 0.852). A revision program was performed in six cases (1 in Group B, 1 in Group C, and 4 in Group D) for full correction of the deformities. Conclusion The accuracy of tibial lengthening is high with the hexapod frame and is minimally affected by simultaneous deformity correction; however, the accuracy of angular correction slightly reduces as the deformity becomes more complex. Surgeons should be aware that reprogramming may be required after complex deformity correction.

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Section: Discussionmentioning

confidence: 99%

Accuracy of the hexapod external fixator in treating tibial angular deformities with or without limb length discrepancy: a retrospective study

Danışman

Yılmaz

Özdemir

et al. 2023

Journal of Pediatric Orthopaedics B

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“…This article provided practical significance and new insights by guiding Chinese doctors to perform a one-stage operation, finally helping the patients with reduced pain, duration of hospitalization and surgical procedure costs. It is well known that Taylor Frame has been widely used for complicated cases with lower limb deformities in developed countries and has achieved good results 25–27 . In view of these results, we aimed to use Talor Frame and planned to use it in clinics soon.…”

Section: Discussionmentioning

confidence: 99%

One-stage Surgical Treatment of Simultaneous Osteotomy and Asymmetric Lengthening on Short Femur with Severe Deformity of Genu Valgus

Sha

et al. 2019

Sci Rep

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This study aimed to discuss the effects of one stage surgical treatment by simultaneous osteotomy and asymmetric lengthening by Ilizarov external fixator on short femur with severe deformity of genu valgus. A total of 12 cases with unilateral deformities treated by simultaneous osteotomy and Ilizarov asymmetric lengthening on short femur with severe deformity of genu valgus were retrospectively analyzed from January 2006 to April 2015. The affected limbs were 2.5–11 cm (5.2 cm on average) short, the femorotibial angle was 135°–158° (146.3° on average), and the ankle interval was 15–43 cm (24.7 cm on average). The Paley method was used to determine the osteotomy plane (distal femur) of genu valgus. According to this standard, the bone union results were as follows: 11 had excellent and 1 had good, where 7 patients had excellent and 5 had good functional outcomes. One stage surgical treatment by simultaneous osteotomy and asymmetric lengthening on short femur with severe deformity of genu valgus was considered to be an effective and reliable method with better osteotomy union, less trauma and fewer complications.

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“…External xation is able to play an important role in this type fracture. External xation can help to retain the microenvironment of fracture healing and achieve good results in the treatment of bone nonunion, osteomyelitis and other diseases [3][4][5][6] . External xation had been described for the treatment of transverse patellar fractures as early as 1843 7 .…”

Section: Introductionmentioning

confidence: 99%

Marker-3D Measurement Versus Traditional Radiograph Measurement in the Treatment of Tibiofibular Fracture Using Taylor Spatial Frame

Liu

et al. 2021

Preprint

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Background: The Taylor Spatial Frame (TSF) has been widely used for tibiofibular fractures. However, traditional radiograph measurement method is complicated and the reduction accuracy is not high enough for correcting residual deformities. We proposed the marker-3D measurement method to solve these problems. This study aimed to compare the reduction accuracy of the traditional radiograph measurement method and the marker-3D measurement method in tibiofibular fracture treated with TSF.Methods: From January 2016 to June 2019, A retrospective analysis was performed based on the patients with tibiofibular fracture treated with TSF in our department. 41 patients were qualified for this study, including 21 patients in the marker-3D measurement group (experimental group) and 20 patients in the traditional radiograph measurement group (control group). In the experimental group, CT scan was performed for 3D reconstruction with 6 markers installed on the TSF, to determine the adjusting plan. In the control group, the anteroposterior (AP) and lateral radiographs were performed for the deformity parameters. X-rays were taken to measure the residual deformities after correction.Results: All patients reached functional reduction. The residual displacement deformity (RDD) in AP radiograph was 0.5 (0, 1.72) mm in experimental group and 1.74 (0.43, 3.67) mm in control group. The residual angle deformity (RAD) in AP radiograph was 0 (0, 1.25) ° in experimental group and 1.25 (0.62, 1.95) °in control group. As to the Lateral radiograph, the RDD was 0 (0, 1.22) mm in experimental group and 2.02 (0, 3.74) mm in control group. The RAD was 0 (0, 0) ° in experimental group and 1.42 (0, 1.93) ° in control group. Significant differences in all above comparisons were found between the groups (AP radiograph RDD: P = 0.024, RAD: P = 0.020; Lateral radiograph RDD: P = 0.016, RAD: P = 0.004). Conclusions: Both groups achieved satisfactory fracture reduction. However, the residual deformities in the experimental group were significantly smaller. This study proved that the marker-3D measurement method could further improve the reduction accuracy.

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The Role of Taylor Spatial Frame in the Treatment of Blount Disease

Cited by 11 publications

References 32 publications

Accuracy of the hexapod external fixator in treating tibial angular deformities with or without limb length discrepancy: a retrospective study

Accuracy of the hexapod external fixator in treating tibial angular deformities with or without limb length discrepancy: a retrospective study

One-stage Surgical Treatment of Simultaneous Osteotomy and Asymmetric Lengthening on Short Femur with Severe Deformity of Genu Valgus

Marker-3D Measurement Versus Traditional Radiograph Measurement in the Treatment of Tibiofibular Fracture Using Taylor Spatial Frame

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