Legacy Research Institute, 1225 NE 2nd Ave, Portland, OR 97232, United States.
Injury. 2013 Feb;44(2):232-8. doi: 10.1016/j.injury.2012.08.011. Epub 2012 Aug 19.
Surgical stabilization of flail chest injury with generic osteosynthesis implants remains challenging. A novel implant system comprising anatomic rib plates and intramedullary splints may improve surgical stabilization of flail chest injuries. This observational study evaluated our early clinical experience with this novel implant system to document if it can simplify the surgical procedure while providing reliable stabilization.
Twenty consecutive patients that underwent stabilization of flail chest injury with anatomic plates and intramedullary splints were prospectively enrolled at two Level I trauma centres. Data collection included patient demographics, injury characterization, surgical procedure details and post-operative recovery. Follow-up was performed at three and six months to assess pulmonary function, durability of implants and fixation and patient health.
Patients had an Injury Severity Score of 28±10, a chest Abbreviated Injury Score of 4.2±0.4 and 8.5±2.9 fractured ribs. Surgical stabilization was achieved on average with five plates and one splint. Intra-operative contouring was required in 14% of plates. Post-operative duration of ventilation was 6.4±8.6 days. Total hospitalization was 15±10 days. At three months, patients had regained 84% of their expected forced vital capacity (%FVC). At six months, 7 of 15 patients that completed follow-up had returned to work. There was no mortality. Among the 91 rib plates, 15 splints and 605 screws in this study there was no hardware failure and no loss of initial fixation. There was one incidence of wound infection. Implants were removed in one patient after fractures had healed.
Anatomic plates eliminated the need for extensive intraoperative plate contouring. Intramedullary rib splints provided a less-invasive fixation alternative for single, non-comminuted fractures. These early clinical results indicate that the novel implant system provides reliable fixation and accommodates the wide range of fractures encountered in flail chest injury.
使用通用接骨板进行连枷胸损伤的手术固定仍然具有挑战性。一种新型的植入物系统,包括解剖肋骨板和髓内夹板,可能会改善连枷胸损伤的手术固定。本观察性研究评估了我们使用这种新型植入物系统的早期临床经验,以记录它是否可以简化手术程序,同时提供可靠的稳定性。
在两个一级创伤中心前瞻性纳入了 20 例连续使用解剖板和髓内夹板固定连枷胸损伤的患者。数据收集包括患者人口统计学资料、损伤特征、手术过程细节和术后恢复情况。在 3 个月和 6 个月时进行随访,以评估肺功能、植入物和固定的耐久性以及患者的健康状况。
患者的损伤严重程度评分(ISS)为 28±10,胸部简明损伤评分(AIS)为 4.2±0.4,肋骨骨折 8.5±2.9 处。平均使用 5 块板和 1 根夹板实现了手术稳定。14%的板需要术中塑形。术后通气时间为 6.4±8.6 天。总住院时间为 15±10 天。3 个月时,患者恢复了预计用力肺活量(%FVC)的 84%。6 个月时,完成随访的 15 例患者中有 7 例已恢复工作。无死亡病例。在这项研究中,91 块肋骨板、15 根髓内肋骨夹板和 605 颗螺钉中,没有出现硬件故障和初始固定丢失的情况。有 1 例伤口感染。1 例患者在骨折愈合后取出了植入物。
解剖板消除了术中广泛板塑形的需要。髓内肋骨夹板为单一、非粉碎性骨折提供了一种微创固定的替代方法。这些早期临床结果表明,新型植入物系统提供了可靠的固定,并适应了连枷胸损伤中遇到的广泛骨折类型。
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