Orthopedic Surgery Department, Pontificia Universidad Católica de Chile, Diagonal Paraguay Nº 362, 3rd floor, Santiago, Chile.
School of Medicine, Pontificia Universidad Católica de Chile, Santiago, Chile.
Knee Surg Sports Traumatol Arthrosc. 2021 Jun;29(6):1822-1829. doi: 10.1007/s00167-020-06229-5. Epub 2020 Aug 18.
In patients with open growth plates, the direction of tunneling that avoids distal femoral physis (DFP) damage in anatomic reconstructions of the medial patellofemoral ligament (MPFL) has been a topic of discussion. The objective of this study was to determine the ideal orientation for anatomic reconstructions of MPFL tunneling that minimized DFP damage while avoiding breaching the intercondylar notch.
Eighty magnetic resonance images of patients aged 10 through 17 were obtained, randomly sampled from the institutional database. A de novo software was developed to obtain 3D models of the distal femur and DFP. In each model, the anatomical insertion point of the MPFL was determined as defined by Stephen. A 20-mm-depth drilling was simulated, starting from the insertion point at every possible angle within a 90° cone using 5-, 6- and 7-mm drills. Physeal damage for each pair of angles and each drill size was determined. Damage was expressed as a percentage of total physis volume. Statistical analysis was conducted using Student's t test and one-way ANOVA.
Maximum physeal damage (5.35% [4.47-6.24]) was obtained with the 7-mm drill when drilling 3° cephalic and 15° posterior from insertion without differences between sexes (n.s.). Minimal physeal damage (0.22% [0.07-0.37]) was obtained using the 5-mm drill aimed 45° distal and 0° anteroposterior, not affected by sex (n.s.). Considering intra-articular drilling avoidance, the safest zone was obtained when aiming 30°-40° distal and 5°-35° anterior, regardless of sex.
Ideal femoral tunnel orientation, avoiding physeal damage and breaching of the intercondylar notch, was obtained when aiming 30°-40° distal and 5°-35° anterior, regardless of sex. This area is a safe zone that allows anatomic MPFL reconstruction of patients with an open physis.
在骺板开放的患者中,为避免在解剖重建内侧髌股韧带(MPFL)时对股骨远端干骺端(DFP)造成损伤,隧道的方向一直是讨论的话题。本研究的目的是确定最小化 DFP 损伤同时避免突破髁间切迹的 MPFL 隧道解剖重建的理想方向。
从机构数据库中随机抽取 10 至 17 岁患者的 80 个磁共振图像。开发了一种新的软件来获得远端股骨和 DFP 的 3D 模型。在每个模型中,确定 MPFL 的解剖插入点,如 Stephen 所定义。模拟从插入点开始,以 90°圆锥内的每个可能角度,使用 5、6 和 7mm 的钻头进行 20mm 深的钻孔。确定每个角度对和每个钻头尺寸的骺板损伤。损伤以骺板总体积的百分比表示。使用 Student's t 检验和单因素方差分析进行统计学分析。
使用 7mm 钻头,当从插入点向头侧 3°和向后方 15°钻孔时,骺板损伤最大(5.35%[4.47-6.24]),男女之间无差异(n.s.)。使用 5mm 钻头,当钻头指向远侧 45°和前-后向 0°时,骺板损伤最小(0.22%[0.07-0.37]),与性别无关(n.s.)。考虑到避免关节内钻孔,无论性别如何,当钻头指向远侧 30°-40°和前向 5°-35°时,获得了最安全的区域。
无论性别如何,当钻头指向远侧 30°-40°和前向 5°-35°时,可获得避免骺板损伤和突破髁间切迹的理想股骨隧道方向,这是一个允许骺板开放的患者进行解剖 MPFL 重建的安全区域。
