胫骨结节截骨联合MPFL重建及幼年关节软骨颗粒化修复髌骨软骨缺损。

IF 1 Q3 SURGERY
Elizabeth R Dennis, William A Marmor, Beth E Shubin Stein
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For patients with recurrent patellar instability, a well-executed MPFL reconstruction restores stability while the TTO serves to unload the lateral and/or inferior patellar cartilage and correct osseous malalignment. Additional techniques, such as a distal femoral osteotomy and trochleoplasty, have been suggested to address patellar tracking and trochlear dysplasia. For patients who have sustained cartilaginous injury from their previous dislocations, PJAC can be utilized to restore the patellofemoral cartilage. Alternative operative treatments of cartilaginous defects include matrix-induced autologous chondrocyte implantation (MACI), mosaicplasty, osteochondral allograft, microfracture, and-in later stages of disease-patellofemoral arthroplasty.</p><p><strong>Rationale: </strong>The MPFL is an important medial stabilizer in the knee, with high rates of injury in patients who have experienced patellar instability. 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引用次数: 0

摘要

髌股内侧韧带(MPFL)重建联合胫骨结节截骨(TTO)和颗粒状幼关节软骨(PJAC)移植术可联合治疗复发性髌骨不稳伴髌骨软骨缺损。术前计划是该手术的重要组成部分。测量胫骨结节到滑车沟(TT-TG)的距离和卡顿-德尚指数(CDI)可以确定内侧和前方平移的程度,并有助于确定是否需要远端化。手术首先在麻醉下进行全面检查,以确定活动范围、髌骨追踪、移动和倾斜。进行诊断性关节镜检查,此时再次评估髌骨跟踪,评估髌骨和滑车软骨。在内侧髌旁切开,确定了囊和支持带之间的层。这一层将作为MPFL移植物通道的位置。髌骨内侧去皮,为植骨固定做准备。然后将髌骨外翻,准备软骨缺损并确定大小。PJAC接枝根据这些测量结果在手术台上制备。然后将MPFL移植物固定在去皮髌骨内侧。然后注意力转向执行TTO。髌腱被隔离和保护。截骨瓦是通过矢状锯和截骨术的结合,然后进行瓦的平移和固定。然后将注意力转向在股骨上进行MPFL移植物固定。做一个切口,确定内上髁和内收肌结节之间的沟区域,并放置一个针。评估移植物的等距,确定针的位置,并建立一个套孔。彻底冲洗后,取出髌骨,植入PJAC移植物,用纤维蛋白胶固定。最后,MPFL移植物穿过先前确定的层,并在内侧股骨的等距点停靠。替代方法:首次髌骨不稳的非手术治疗通常包括物理治疗、支具和活动调节。然而,复发率可能很高,特别是在具有年龄等特征的高危患者中:MPFL是膝关节重要的内侧稳定剂,在经历过髌骨不稳定的患者中损伤率很高。当MPFL重建与TTO联合使用时,它可以稳定髌骨,同时纠正骨错位并卸载髌股关节。此外,对于髌骨软骨缺损患者,PJAC的使用是有利的,因为它是一种单阶段技术,技术难度低,可以定制以适应较大的病变。预期结果:MPFL联合TTO和PJAC提供了髌骨稳定和疼痛和功能的整体改善,复发不稳定率低。Franciozi等人最近的一项研究显示,至少2年内功能结局评分显著改善,无复发性半脱位或脱位1。Krych等人的另一项研究显示,在MPFL重建合并TTO2的患者中,83%的患者恢复运动。关于PJAC移植物,Grawe等人的研究评估了PJAC植入髌骨软骨缺损的成熟度,表明成熟的移植物与周围天然软骨的特征相似。此外,作者报道73%在术后2年完成随访磁共振成像的患者有良好的缺损填充,定义为>66%3。重要提示:如果髌骨不能与桌子平行旋转,侧向释放可能是必要的。通常,80%的不稳定患者不需要侧位松解术,而80%的错位和孤立性髌骨关节炎患者需要侧位松解术。MPFL移植物的等距性应通过手动将髌骨置于滑车中心并将膝关节屈曲至约70°来评估。移植物应在随后的深度屈曲中松弛,不应收紧。当定制TTO以获得必要的解剖对齐时,外科医生可以通过放下他们的手来创造一个更平坦的切口来实现额外的中间化,同时可以通过更陡峭的切口来创造额外的前化。一旦软骨缺损已经准备好并测量好,就可以创建一个模具,以便在手术早期在后台上进行伴随的PJAC准备。 缩略语:TT-TG =胫骨结节至滑车沟距离empfl =髌股内侧韧带tto =胫骨结节取骨术ypjac =幼年关节软骨颗粒化emaci =基质诱导自体软骨细胞植入or =手术室iv =静脉内丝=克氏针cpm =连续被动运动mri =磁共振成像a =骨关节炎asa =乙酰水杨酸(阿司匹林)DVT =深静脉血栓sisppx =预防nwb =非负重fwb =完全负重pod =术后一天。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Combined MPFL Reconstruction with Tibial Tubercle Osteotomy and Repair of Patellar Cartilage Defect with Particulated Juvenile Articular Cartilage.

Medial patellofemoral ligament (MPFL) reconstruction with tibial tubercle osteotomy (TTO) and particulated juvenile articular cartilage (PJAC) grafting can be performed in combination for the treatment of recurrent patellar instability with associated patellar cartilaginous defects.

Description: Preoperative planning is an essential component for this procedure. Measurement of the tibial tubercle to trochlear groove (TT-TG) distance and the Caton-Deschamps index (CDI) allows for determination of the degree of medial and anterior translation and helps to identify whether distalization is necessary. The procedure begins with a thorough examination under anesthesia to determine range of motion, patellar tracking, translation, and tilt. A diagnostic arthroscopy is performed, at which time patellar tracking is again assessed and the patellar and trochlear cartilage are evaluated. A medial parapatellar incision is made, and the layer between the capsule and retinaculum is identified. This layer will serve as the location for the MPFL graft passage. The medial patella is decorticated to prepare for graft fixation. The patella is then everted, and the cartilaginous defect is prepared and sized. The PJAC graft is prepared on the back table based on these measurements. The MPFL graft is then anchored to the decorticated medial patella. Attention is then turned to performing the TTO. The patellar tendon is isolated and protected. The osteotomy shingle is created with a combination of sagittal saw and osteotomes, followed by shingle translation and fixation. Attention is then turned to performing the MPFL graft fixation on the femur. An incision is made, the area of the sulcus between the medial epicondyle and adductor tubercle is identified, and a pin is placed. Graft isometry is assessed, pin placement is confirmed, and a socket is created. After thorough irrigation, the patella is then everted and the PJAC graft is implanted and set with fibrin glue. Finally, the MPFL graft is passed through the previously identified layer and docked into the medial femur at its isometric point.

Alternatives: Nonoperative treatment of first-time patellar instability can often include physical therapy, bracing, and activity modification. However, recurrence rates can be high, especially in a subset of high-risk patients with characteristics such as age of <25 years, trochlear dysplasia, patella alta, and coronal plane malalignment. For patients with recurrent patellar instability, a well-executed MPFL reconstruction restores stability while the TTO serves to unload the lateral and/or inferior patellar cartilage and correct osseous malalignment. Additional techniques, such as a distal femoral osteotomy and trochleoplasty, have been suggested to address patellar tracking and trochlear dysplasia. For patients who have sustained cartilaginous injury from their previous dislocations, PJAC can be utilized to restore the patellofemoral cartilage. Alternative operative treatments of cartilaginous defects include matrix-induced autologous chondrocyte implantation (MACI), mosaicplasty, osteochondral allograft, microfracture, and-in later stages of disease-patellofemoral arthroplasty.

Rationale: The MPFL is an important medial stabilizer in the knee, with high rates of injury in patients who have experienced patellar instability. When an MPFL reconstruction is combined with a TTO, it can stabilize the patella while simultaneously correcting osseous malalignment and unloading the patellofemoral joint. Additionally, use of PJAC is advantageous for patients with patellar chondral defects because it is a single-stage technique, has low technical difficulty, and can be customized to accommodate large lesions.

Expected outcomes: MPFL in combination with TTO and PJAC provides patellar stabilization and overall improvements in pain and function, with low rates of recurrent instability. A recent study by Franciozi et al. showed significant improvement in functional outcome scores at a minimum of 2 years with no recurrent subluxations or dislocations1. Another study by Krych et al. showed an 83% rate of return to sport in patients who underwent MPFL reconstruction combined with TTO2. With respect to PJAC grafts, a study by Grawe et al. assessed the maturation of PJAC implanted into patellar chondral defects, demonstrating that the matured grafts paralleled the characteristics of the surrounding native cartilage. In addition, the authors reported that 73% of patients who completed follow-up magnetic resonance imaging at 2 years postoperatively had good defect fill, defined as >66%3.

Important tips: A lateral release may be necessary if the patella is unable to be everted parallel with the table. Typically, 80% of patients with instability do not need a lateral release, whereas 80% of patients with malalignment and isolated patellar osteoarthritis do need a release.MPFL graft isometry should be assessed by manually placing the patella in the center of the trochlea and flexing the knee to roughly 70°. The graft should slacken in subsequent deeper flexion and should never tighten.When customizing the TTO to obtain the necessary anatomic alignment, the surgeon can achieve additional medialization by dropping their hand to create a flatter cut, while additional anteriorization can be created with a steeper cut.Once the cartilage defect has been prepared and measured, a mold can be created to allow for concomitant PJAC preparation on the back table earlier in the procedure.

Acronyms and abbreviations: TT-TG = tibial tubercle to trochlear groove distanceMPFL = medial patellofemoral ligamentTTO = tibial tubercle osteotomyPJAC = particulated juvenile articular cartilageMACI = matrix-induced autologous chondrocyte implantationOR = operating roomIV = intravenousK-wires = Kirschner wiresCPM = continuous passive motionMRI = magnetic resonance imagingOA = osteoarthritisASA = acetylsalicylic acid (aspirin)DVT = deep vein thrombosisPPX = prophylaxisNWB = non-weight-bearingFWB = full weight-bearingPOD = postoperative day.

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来源期刊
CiteScore
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发文量
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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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