Arthroscopically Assisted Percutaneous Screw Fixation of Tibial Plateau Fractures.

IF 1 Q3 SURGERY
Justin T Jabara, Arthur J Only, T Zach Paull, Kelsey L Wise, Marc F Swiontkowski, Mai P Nguyen
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However, there has been concern regarding inadequate visualization of the articular surface with open tibial plateau fracture fixation, contributing to a fivefold increase in conversion to total knee arthroplasty<sup>2</sup>. In addition, the risk of wound complications and infection has been reported to be as high as 12%<sup>3,4</sup>. Knee arthroscopy with percutaneous, cannulated screw fixation provides a less invasive procedure with excellent visualization of the articular surface and allows for accurate reduction and fracture fixation compared with traditional open reduction and internal fixation techniques<sup>1</sup>. 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Articular reduction can be visualized directly with an open submeniscal arthrotomy and an ipsilateral femoral distractor or indirectly with fluoroscopy.</p><p><strong>Rationale: </strong>Visualization of the articular surface is essential to achieve anatomic reduction of the joint line. Inspection of the posterior plateau is difficult with an open surgical approach. Arthroscopically assisted percutaneous screw fixation of a tibial plateau fracture may allow for improved restoration of articular surfaces through enhanced visualization. Less soft-tissue dissection is associated with lower morbidity and may result in less damage to the blood supply, lower rates of infection and wound complications, faster healing, and better mobility for patients. In our experience, this technique has been successful in patients with severe osteoporosis and comminution of depressed fragments. 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引用次数: 1

Abstract

Tibial plateau fractures account for approximately 1% to 2% of fractures in adults1. These fractures exhibit a bimodal distribution as high-energy fractures in young patients and low-energy fragility fractures in elderly patients. The goal of operative treatment is restoration of joint stability, limb alignment, and articular surface congruity while minimizing complications such as stiffness, infection, and posttraumatic osteoarthritis. Open reduction and internal fixation with direct visualization of the articular reduction or indirect evaluation with fluoroscopy has traditionally been the standard treatment for displaced tibial plateau fractures. However, there has been concern regarding inadequate visualization of the articular surface with open tibial plateau fracture fixation, contributing to a fivefold increase in conversion to total knee arthroplasty2. In addition, the risk of wound complications and infection has been reported to be as high as 12%3,4. Knee arthroscopy with percutaneous, cannulated screw fixation provides a less invasive procedure with excellent visualization of the articular surface and allows for accurate reduction and fracture fixation compared with traditional open reduction and internal fixation techniques1. Recent studies of arthroscopically assisted percutaneous screw fixation of tibial plateau fractures have reported excellent early clinical and radiographic outcomes and low complication rates3,5,6.

Description: This technique involves the use of both arthroscopy and fluoroscopy to facilitate reduction and fixation of the tibial plateau fracture. Through a minimally invasive technique, the depressed articular joint surface is targeted with use of preoperative computed tomography (CT) scans and intraoperative biplanar fluoroscopy. Reduction is then directly visualized with arthroscopy and fixation is performed with use of fluoroscopy. Lastly, restoration of the articular surface is confirmed with use of arthroscopy after definitive fixation. Modifications can be made as needed.

Alternatives: The traditional method for fixation of displaced tibial plateau fractures is open reduction and internal fixation. Articular reduction can be visualized directly with an open submeniscal arthrotomy and an ipsilateral femoral distractor or indirectly with fluoroscopy.

Rationale: Visualization of the articular surface is essential to achieve anatomic reduction of the joint line. Inspection of the posterior plateau is difficult with an open surgical approach. Arthroscopically assisted percutaneous screw fixation of a tibial plateau fracture may allow for improved restoration of articular surfaces through enhanced visualization. Less soft-tissue dissection is associated with lower morbidity and may result in less damage to the blood supply, lower rates of infection and wound complications, faster healing, and better mobility for patients. In our experience, this technique has been successful in patients with severe osteoporosis and comminution of depressed fragments. If total knee arthroplasty is required, we have also observed less damage to the blood supply and fewer surgical scars with use of this surgical technique.

Expected outcomes: Arthroscopically assisted percutaneous screw fixation of a tibial plateau fracture facilitates anatomical reduction through a less invasive approach. Patients undergoing this method of tibial plateau fracture fixation are able to engage earlier in rehabilitation2. Studies have shown early postoperative range of motion, excellent patient-reported outcomes, and minimal complications7,8.

Important tips: Arthroscopically assisted fixation can be applied to a variety of tibial plateau fractures; however, the minimally invasive approach is best suited for patients with isolated lateral tibial plateau fractures (Schatzker I to III) and a cortical envelope that can be easily restored. The cortical envelope refers to the outer rim of the tibial plateau. Fracture pattern and ligamentotaxis determine the cortical envelope, which can be evaluated on preoperative CT scans. In our experience, even depressed segments with a high degree of comminution may be treated with use of this technique with satisfactory results.Articular depression should be targeted with use of a preoperative CT scan and intraoperative fluoroscopy and arthroscopy.The surgeon should be careful not to "push up" in 1 small area; rather, a "joker" elevator or bone tamp should be utilized, moving anterior to posterior, which can be frequently assessed with arthroscopy.The intra-articular pressure of the arthroscopy irrigation fluid should be low (≤45 mm Hg or gravity flow), and the operative extremity should be monitored for compartment syndrome throughout the procedure.

Acronyms and abbreviations: ACL = anterior cruciate ligamentK-wires = Kirschner wiresORIF = open reduction and internal fixationAP = anteroposteriorCR = computed radiography.

关节镜辅助下经皮螺钉固定胫骨平台骨折。
胫骨平台骨折约占成人骨折的1%至2% 1。这些骨折呈现双峰分布,年轻患者为高能骨折,老年患者为低能脆性骨折。手术治疗的目标是恢复关节稳定性、肢体对齐和关节表面一致性,同时尽量减少并发症,如僵硬、感染和创伤后骨关节炎。传统上,切开复位内固定直接观察关节复位或通过透视间接评估是移位性胫骨平台骨折的标准治疗方法。然而,开放性胫骨平台骨折固定术中关节面显示不足,导致全膝关节置换术的发生率增加了5倍。此外,据报道伤口并发症和感染的风险高达12%3,4。与传统的切开复位和内固定技术相比,经皮空心螺钉内固定的膝关节镜检查具有更小的侵入性和更好的关节面可视化,可实现准确的复位和骨折固定。最近的研究表明,关节镜辅助下经皮螺钉固定胫骨平台骨折的早期临床和影像学结果良好,并发症发生率低3,5,6。描述:该技术包括使用关节镜和透视镜来促进胫骨平台骨折的复位和固定。通过微创技术,术前使用计算机断层扫描(CT)扫描和术中双平面透视瞄准凹陷的关节面。然后在关节镜下直接观察复位,并在透视下进行固定。最后,确定固定后使用关节镜确认关节面恢复。可以根据需要进行修改。替代方法:移位性胫骨平台骨折的传统固定方法是切开复位内固定。关节复位可通过开放性半月板下关节切开术和同侧股牵引器直接观察,也可通过透视间接观察。理由:关节表面的可视化是实现关节线解剖复位的必要条件。开放手术入路检查后平台是困难的。关节镜辅助下经皮螺钉固定胫骨平台骨折可通过增强视觉效果改善关节面恢复。较少的软组织剥离与较低的发病率相关,可能导致较少的血液供应损害,较低的感染和伤口并发症发生率,更快的愈合,以及患者更好的活动能力。根据我们的经验,这项技术在严重骨质疏松症和抑郁碎片粉碎的患者中取得了成功。如果需要全膝关节置换术,我们也观察到使用这种手术技术对血液供应的损害更小,手术疤痕更少。预期结果:关节镜辅助下经皮螺钉固定胫骨平台骨折可通过微创入路实现解剖复位。采用这种胫骨平台骨折固定方法的患者能够更早地进行康复治疗2。研究表明,术后早期的活动范围,良好的患者报告的结果,和最小的并发症7,8。重要提示:关节镜辅助固定可用于各种胫骨平台骨折;然而,微创入路最适合于孤立的胫骨外侧平台骨折(Schatzker I至III)和皮质包膜容易恢复的患者。皮质包膜指的是胫骨平台的外缘。骨折类型和韧带的亲和性决定了皮质包膜,这可以通过术前CT扫描来评估。根据我们的经验,即使是高度粉碎的凹陷节段也可以用这种技术治疗,效果令人满意。关节凹陷应通过术前CT扫描、术中透视和关节镜来定位。外科医生要注意不要“上推”1个小区域;相反,应该使用“小丑”升降机或骨压,从前到后移动,这可以经常通过关节镜检查。关节镜冲洗液的关节内压力应低(≤45mmhg或重力流),在整个手术过程中应监测手术肢体是否存在隔室综合征。首字母缩写:ACL =前交叉韧带;克氏钢丝;if =切开复位内固定;ap =正反位;cr =计算机放射摄影。
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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来源期刊
CiteScore
2.30
自引率
0.00%
发文量
22
期刊介绍: JBJS Essential Surgical Techniques (JBJS EST) is the premier journal describing how to perform orthopaedic surgical procedures, verified by evidence-based outcomes, vetted by peer review, while utilizing online delivery, imagery and video to optimize the educational experience, thereby enhancing patient care.
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