儿童创伤后踝关节畸形的治疗。

IF 1.4 Q3 EMERGENCY MEDICINE International Journal of Burns and Trauma Pub Date : 2024-06-25 eCollection Date: 2024-01-01 DOI:10.62347/UDGF6452
Yasir Salam Siddiqui, Mohd Julfiqar, Mohd Hadi Aziz, Mazhar Abbas, Adnan Anwer, Asad Khan, Mohd Owais Ansari, Mohd Adnan, Syed Mohd Shoaib, Mohammad Ibran
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引用次数: 0

摘要

本次临床评估的目的是根据患儿的年龄、畸形的部位和严重程度、剩余生长潜力、软组织包膜的状况以及神经血管的完整性,评估趾骨损伤继发踝关节畸形矫正的临床放射学结果。15 名年龄小于 16 岁的受试者因趾骨损伤导致踝关节成角畸形。继发于感染和病理性骨折的畸形被排除在外。病例档案中记录了人口统计学数据、损伤类型、治疗方法和随访情况。治疗类别包括急性矫正截骨术(10年以上)和生长调节截骨术(10年以下)。男女比例为 7:8,平均年龄为(11.8 ± 2.31)岁(9-16 岁)。左右比例为 7:8。平均随访时间为 1 年零 4 个月。2例患者利用生长调节原理进行了渐进式畸形矫正,13例患者通过截骨术进行了急性矫正。术前踝关节畸形平均为 20.8 ± 3.11 度(范围-25 至 24 度)。平均 11 周(8-24 周)达到放射学结合。九名患者实现了踝关节中立对齐。平均残余内翻为2.3度,外翻为4度。AOFAS 评分从术前的平均 57 分(44-84 分)提高到最后随访时的 74 分(56-100 分),提高了 17 分,具有统计学意义(P 值小于 0.001)。术前的平均缩短度为 2.36 ± 0.21 厘米,其中 9 人的缩短度得到了完全矫正。踝关节周围成角畸形的治疗需要注意矫正由此导致的成角畸形和/或肢体长度不一致,采用急性或渐进式矫正。成功的结果取决于对小儿踝关节骨折模式的早期识别和针对患者的治疗。将我们的研究结果与现有文献进行对比,我们认为,只要坚持畸形矫正的原则,对踝关节周围的成角畸形进行急性或渐进矫正都是可行的解决方案。挽救和恢复受伤趾骨骨板活力的技术值得进一步研究。
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Management of post-traumatic ankle deformities in children.

The objective of this clinical appraisal was to assess the clinical-radiological results of ankle deformity correction secondary to physeal injury, utilizing the methods based on the age of the child, site & severity of the deformity, remaining growth potential, condition of the soft tissue envelop and integrity of neurovascular status. Fifteen subjects ≤ 16 years of age, with angular deformities of the ankle secondary to physeal injury, were included. Deformities secondary to infection and pathological fractures were excluded. Demographic data, type of injury, treatment method, and follow-up were recorded from the case files. Treatment categories included osteotomies for acute correction (> 10 years) and growth modulation (≤ 10 years). Male to female ratio was 7:8, with an average age of 11.8 ± 2.31 years (range 9-16 years). The right and left ratio was 7:8. Mean duration of follow-up was 1 year and 4 months. Gradual deformity correction was done in 2 cases utilizing the principle of growth modulation, while acute correction by osteotomy was done in 13 cases. The average pre-operative ankle deformity was 20.8 ± 3.11 degrees (Range -25 to 24 degrees). Radiological union was attained at a mean of 11 weeks (8-24). Nine patients achieved neutral ankle alignment. The mean residual varus was 2.3°, and the valgus was 4°. There was a statistically significant improvement of the AOFAS score by 17 points from a mean pre-operative score of 57 (44-84) to 74 (56-100) points at the final follow-up (p-value < 0.001). The average pre-operative shortening was 2.36 ± 0.21 cm, which was completely corrected in 9 individuals. Management of angular deformities around the ankle calls attention to correcting the resultant angular deformity and/or limb length disparity, utilizing acute or gradual correction. A successful outcome depends on early recognition and patient-specific treatment of paediatric ankle fracture patterns. Correlating the results of our study with the available literature, we feel that both acute or gradual correction for angular deformities around the ankle is a feasible solution as long as principles of deformity correction are adhered to. Techniques for salvaging and restoring the viability of injured physeal plate warrant additional research.

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