Choi Nam-Hong, Choi Jeong-Ki, Yang Bong-Seok, Lee Doe-Hyun, Victoroff Brian N
Department of Orthopaedic Surgery, Eulji Medical Center, Seoul, Republic of Korea.
Department of Orthopaedic Surgery, Choi's Hospital, Suwon, Republic of Korea.
Am J Sports Med. 2017 Oct;45(12):2791-2796. doi: 10.1177/0363546517716640. Epub 2017 Jul 28.
Accurate positioning of the bony bridge is crucial to prevent extrusion of meniscal allografts after transplant. However, oblique or lateralized placement of the bony bridge of the lateral meniscal allograft may occur due to technical error or a limited visual field. The patellar tendon may be an obstacle to approaching the anterior horn of the lateral meniscus, resulting in a laterally placed allograft. Therefore, lateral meniscal transplant through a medial arthrotomy would be an alternative approach. However, no report exists regarding allograft extrusion when comparing medial and lateral arthrotomy techniques in lateral meniscal transplants.
Extrusion of the midbody of the allograft is less severe and the rotation of the bony bridge is less oblique in lateral meniscal allograft transplants through the medial parapatellar approach than those through the lateral approach.
Cohort study; Level of evidence, 3.
A bony bridge was used to perform 55 lateral meniscal transplants through either a medial or a lateral arthrotomy. Thirty-two allografts were transplanted through a medial arthrotomy and 23 were transplanted through a lateral arthrotomy, not randomly. Because correct positioning of the bony trough through the medial arthrotomy was easier than that through the lateral arthrotomy, the method of the arthrotomy was changed for the latter. The procedure for both groups was identical except for the arthrotomy technique, and rehabilitation was identical for both groups. Follow-up magnetic resonance imaging was conducted for all patients to measure the postoperative extrusion and obliquity of the bony bridge of the allograft. On the coronal view, extrusion was measured as the distance between the outer edge of the articular cartilage of the lateral tibial plateau and the outer edge of the meniscal allograft. On the axial view, a line (line B) was drawn along the longitudinal axis of the bony bridge. The posterior tibial condylar tangential line was drawn between the medial and lateral posterior tibial condylar cortices. A line (line T) was drawn perpendicular to the posterior tibial condylar tangential line. The angle (trough angle) between lines B and T was measured. Postoperative extrusion and the trough angle were compared between the medial and lateral arthrotomy groups.
The median extrusion of the midbody of the allograft was 2.2 mm (interquartile range [IQR], 2.4 mm; range, 0-4.6 mm) in the medial arthrotomy group and 3.1 mm (IQR, 1.5 mm; range, 0-5.3 mm) in the lateral arthrotomy group ( P = .001). Seven (21.9%) patients demonstrated extrusion in the medial arthrotomy group, and 15 (65.2%) patients had extrusion in the lateral group ( P = .002). The median trough angle was 0.9° (IQR, 9.3°; range, -8.8-15.8°) in the medial arthrotomy group and 11.6° (IQR, 2.8°; range, 3-19.8°) in the lateral arthrotomy group ( P < .001).
Based on this experience, lateral meniscal allograft transplant through a medial arthrotomy is preferred to decrease postoperative extrusion of the allograft.
骨桥的准确定位对于防止半月板同种异体移植后移植物挤出至关重要。然而,由于技术失误或视野受限,外侧半月板同种异体移植骨桥可能会出现倾斜或侧向放置的情况。髌腱可能会阻碍进入外侧半月板的前角,导致移植物侧向放置。因此,经内侧关节切开术进行外侧半月板移植可能是一种替代方法。然而,在比较外侧半月板移植中内侧和外侧关节切开术技术时,尚无关于同种异体移植物挤出的报道。
与经外侧入路相比,经内侧髌旁入路进行外侧半月板同种异体移植时,移植物体部的挤出程度较轻,骨桥的旋转倾斜度较小。
队列研究;证据等级,3级。
使用骨桥通过内侧或外侧关节切开术进行55例外侧半月板移植。32例同种异体移植物通过内侧关节切开术移植,23例通过外侧关节切开术移植,并非随机分组。由于经内侧关节切开术正确定位骨槽比经外侧关节切开术更容易,因此对后者改变了关节切开术方法。除关节切开术技术外,两组的手术过程相同,两组的康复方案也相同。对所有患者进行随访磁共振成像,以测量术后同种异体移植物骨桥的挤出和倾斜度。在冠状面上,挤出量测量为外侧胫骨平台关节软骨外边缘与半月板同种异体移植物外边缘之间的距离。在轴位面上,沿骨桥的纵轴画一条线(线B)。在胫骨后内侧和外侧髁皮质之间画一条胫骨后髁切线。画一条垂直于胫骨后髁切线的线(线T)。测量线B与线T之间的角度(骨槽角)。比较内侧和外侧关节切开术组术后的挤出量和骨槽角。
内侧关节切开术组同种异体移植物体部的中位挤出量为2.2 mm(四分位间距[IQR],2.4 mm;范围,0 - 4.6 mm),外侧关节切开术组为3.1 mm(IQR,1.5 mm;范围,0 - 5.3 mm)(P = 0.001)。内侧关节切开术组有7例(21.9%)患者出现挤出,外侧组有15例(65.2%)患者出现挤出(P = 0.002)。内侧关节切开术组的中位骨槽角为0.9°(IQR,9.3°;范围, - 8.8 - 15.8°),外侧关节切开术组为11.6°(IQR,2.8°;范围,3 - 19.8°)(P < 0.001)。
基于该经验,经内侧关节切开术进行外侧半月板同种异体移植更有利于减少术后移植物的挤出。
