Treatment of rotational tibial malunion after minimal invasive plate osteosynthesis (MIPO): Corrective osteotomy with original plate retention (PR-Osteotomy).

Filippo Randelli, Manuel Giovanni Mazzoleni, Alberto Fioruzzi, Joil Ramazzotti, Martino Viganò, Giulia Volpe, Fabrizio Pace
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Abstract

Background and purpose: Residual axial and rotational deformities in tibial shaft fracture, after minimally invasive osteosynthesis (MIO) treatment, are widely described in literature. Nevertheless, there is still a lack of evidence about the malunion treatment strategies and results. The aim of our study is to present an innovative technique for tibial shaft malunion: a derotational proximal tibial osteotomy without removing the original plate (Plate-Retaining-Osteotomy: PR-Osteotomy).

Materials and methods: We present the results of two consecutive patients' treatment, affected by tibial shaft fracture malunion, as sequelae of MIO treatment. The two patients, male 60 years old and female 39 years old, underwent previous surgical treatment with an average of 9 months span time before surgical revision. The affected limb showed significant external torsional defect associated with gait impairment, pain and limping. The amount of rotational deformity and the bone healing condition is assessed through a methodical preoperative planning, including weight bearing lower limbs Xray and bilateral computed tomography (CT) scan of the lower limbs. The surgical technique involves a monoplanar tibial osteotomy, in a perpendicular fashion to the tibial axis, at a level that would allow at least 3 proximal screw-holes to become available for subsequent fixation. Proximal to the osteotomy line the screws are removed, while the distal ones, if stable after testing, are left in place. The amount of torsional correction, planned on CT, is reproduced intraoperatively with the assistance of graduated templates. A fibular osteotomy may be performed if required. After temporary stabilization, the correct functional reduction is checked with the aid of fluoroscopy and empirical rod measurement, using the contralateral limb alignment as a reference. Once the desired correction is achieved, absolute stability is applied to the osteotomy site. Postoperative rehabilitation protocol involves partial weight bearing for 6-8 weeks with progression to full weight bearing by 10-12 weeks.

Results: Both patients showed complete osteotomy healing at the 13th and 16th week respectively, with no complications and full recovery of normal gait and daily life activities.

Conclusions: To our knowledge, this is the first description of such surgical technique. Less invasiveness, fast recovery time and cost reductions are the foremost proposed benefits. Further larger case series with longer follow up are needed to assess the advantages of the proposed treatment strategy.

微创钢板骨合成术(MIPO)后胫骨旋转错位的治疗:保留原始钢板的矫正截骨术(PR-Osteotomy)。
背景和目的:文献中广泛描述了微创骨合成术(MIO)治疗后胫骨轴骨折残留的轴向和旋转畸形。然而,关于畸形愈合治疗策略和结果的证据仍然缺乏。我们的研究旨在介绍一种治疗胫骨骨干错位的创新技术:不去除原始钢板的胫骨近端脱位截骨术(Plate-Retaining-Osteotomy:PR-Osteotomy):我们展示了两名连续患者的治疗结果,这两名患者均因胫骨轴骨折错位而导致MIO治疗后遗症。这两名患者,男 60 岁,女 39 岁,均接受过手术治疗,手术翻修前的平均时间跨度为 9 个月。患肢有明显的外扭转缺损,伴有步态障碍、疼痛和跛行。通过有条不紊的术前规划,包括下肢负重 X 射线和双侧下肢计算机断层扫描(CT),对旋转畸形的程度和骨愈合情况进行评估。手术技术包括单平面胫骨截骨,截骨方向与胫骨轴线垂直,截骨水平应至少有 3 个近端螺钉孔可用于后续固定。在截骨线近端移除螺钉,而远端螺钉如果在测试后保持稳定,则保留在原位。在 CT 上规划的扭转矫正量可在术中通过刻度模板进行重现。如有需要,可进行腓骨截骨术。临时稳定后,借助透视和经验杆测量,以对侧肢体对齐情况为参考,检查功能性矫正的正确性。一旦达到预期的矫正效果,就会对截骨部位进行绝对稳定。术后康复方案包括 6-8 周内部分负重,10-12 周后完全负重:结果:两名患者分别在第 13 周和第 16 周时截骨完全愈合,无并发症,完全恢复了正常步态和日常生活活动:据我们所知,这是首次描述此类手术技术。据我们所知,这是首次描述这种手术技术,其最大优点是创伤小、恢复快、成本低。还需要更多更大规模的病例系列和更长时间的随访,以评估拟议治疗策略的优势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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