使用术中透视提高低手术量外科医生在 ACL 手术中股骨隧道定位的准确性。
Improvement of Accuracy of Femoral Tunnel Positioning in ACL Surgery for Low-Volume Surgeons Using Intraoperative Fluoroscopy.
作者信息
Mueller Maximilian M, Hinz Nico, Drenck Tobias, Eggeling Lena, Frosch Karl-Heinz, Hoeher Juergen, Akoto Ralph
机构信息
Department of Trauma Surgery, Orthopaedics and Sports Traumatology, BG Klinikum Hamburg, Hamburg, Germany.
Department of Trauma and Orthopaedic Surgery, University Medical Center Hamburg-Eppendorf, Hamburg, Germany.
出版信息
Orthop J Sports Med. 2025 Jun 18;13(6):23259671251346647. doi: 10.1177/23259671251346647. eCollection 2025 Jun.
BACKGROUND
Less experienced surgeons have an increased risk for tunnel malpositioning as a predominant risk factor for failure of anterior cruciate ligament reconstruction (ACLR). Fluoroscopic guidance can improve the precision of tunnel positioning.
PURPOSE
To investigate whether low-volume surgeons can achieve precise femoral tunnel placement in ACLR under fluoroscopic control comparable to that of experienced mid- and high-volume surgeons.
STUDY DESIGN
Cohort study; Level of evidence, 3.
METHODS
This study retrospectively included 150 patients who underwent primary ACLR between January 2021 and March 2023 and were prospectively enrolled in an in-clinic registry. Three groups were defined: high-volume surgeon (1 surgeon with >100 ACLRs per year; 50 images), mid-volume surgeon (1 surgeon with >10 to <50 ACLRs per year; 50 images), and low-volume surgeon (5 surgeons with ≤10 ACLRs per year; 50 images). The analysis of the femoral tunnel position was performed digitally on strictly lateral fluoroscopic images by determining the depth and height relations according to the quadrant method of Bernard and Hertel.
RESULTS
All surgeons, regardless of experience, achieved high precision of femoral tunnel placement (depth relation: SD, 3.41% [1.58 mm]; height relation: SD, 5.33% [1.33 mm]). The variances of the tunnel placements did not show significant differences between the 3 groups with the Brown-Forsythe test (depth relation: probability () > = 0.332; height relation: > = 0.081; < .05). The precision of the high-volume surgeon (depth relation: SD, 3.29%; height relation: SD, 4.92%) was comparable to that of the mid-volume surgeon (depth relation: SD, 2.98%; height relation: SD, 5.9%) and low-volume surgeon (depth relation: SD, 3.58%; height relation: SD, 4.62%).
CONCLUSION
In this study, fluoroscopically guided tunnel placement allowed low-volume surgeons to achieve a level of precision comparable to that of the experienced surgeons. Fluoroscopy might especially help low-volume surgeons to achieve a standardized and highly reproducible femoral tunnel position and thus avoid tunnel malpositioning.
背景
经验不足的外科医生发生隧道位置不当的风险增加,这是前交叉韧带重建(ACLR)失败的主要危险因素。透视引导可提高隧道定位的精度。
目的
研究低手术量的外科医生在透视控制下进行ACLR时,能否实现与经验丰富的中、高手术量外科医生相当的精确股骨隧道置入。
研究设计
队列研究;证据等级,3级。
方法
本研究回顾性纳入了2021年1月至2023年3月间接受初次ACLR并前瞻性纳入门诊登记的150例患者。定义了三组:高手术量外科医生(1名每年进行>100例ACLR的外科医生;50张图像)、中手术量外科医生(1名每年进行>10至<50例ACLR的外科医生;50张图像)和低手术量外科医生(5名每年进行≤10例ACLR的外科医生;50张图像)。通过根据Bernard和Hertel象限法确定深度和高度关系,在严格的侧位透视图像上对股骨隧道位置进行数字化分析。
结果
所有外科医生,无论经验如何,均实现了高精度的股骨隧道置入(深度关系:标准差,3.41%[1.58 mm];高度关系:标准差,5.33%[1.33 mm])。采用Brown-Forsythe检验,三组之间隧道置入的方差无显著差异(深度关系:概率()> = 0.332;高度关系:> = 0.081;<0.05)。高手术量外科医生的精度(深度关系:标准差,3.29%;高度关系:标准差,4.92%)与中手术量外科医生(深度关系:标准差,2.98%;高度关系:标准差,5.9%)和低手术量外科医生(深度关系:标准差,3.58%;高度关系:标准差,4.62%)相当。
结论
在本研究中,透视引导下的隧道置入使低手术量外科医生能够达到与经验丰富的外科医生相当的精度水平。透视可能特别有助于低手术量外科医生实现标准化且高度可重复的股骨隧道位置,从而避免隧道位置不当。
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