Department of Orthopaedics, Faculty of Medicine, Chulalongkorn University and King Chulalongkorn Memorial Hospital, Bangkok, Thailand; Center of Excellence in Biomechanics and Innovative Spine Surgery, Chulalongkorn University, Bangkok, Thailand.
Department of Orthopaedics, Faculty of Medicine, Chulalongkorn University and King Chulalongkorn Memorial Hospital, Bangkok, Thailand.
Spine J. 2022 Sep;22(9):1504-1512. doi: 10.1016/j.spinee.2022.04.002. Epub 2022 Apr 18.
The trend of minimally invasive lumbar interbody fusion is increasing, and adjacent segmental degeneration (ASD) is one of the complications of the procedures in which facet joint violation (FJV) is a cause. FJVs can occur during percutaneous instrumentation. This study aimed to identify the risk factors that affect FJV during minimally invasive lumbar interbody fusion.
To identify the risk factors for FJVs and the factors that have a strong impact on the violation.
Retrospective study.
Patients who underwent minimally invasive lumbar interbody fusion with percutaneous screw fixation between June 2018 and December 2019.
Prevalence of the FJV was reviewed by CT scans which obtained within 6 months after surgery, and the axial, coronal, and sagittal cuts of the scans were evaluated. The FJV was defined as the screw being visible in the facet joint in at least one plane of the CT scan. Radiographic parameters were measured using CT scans including diameters of the facet joints in the axial, coronal, and sagittal planes defined by the facet diameter. The facet angle (FA), the pedicle angle (PA), the screw-facet angle (SFA), the screw-endplate angle (SEA), and the superior margin of the facet joint in the sagittal plane (SD) differed from the head of the screw. At Last, the depth of back muscle was measured in the axial cut of the MRI.
This study analyzed 119 patients who underwent minimally invasive lumbar interbody fusion between June 2018 and December 2019. Facet joint violation at the uppermost level was examined using CT in all dimensions. Radiographic parameters (facet diameter, facet angle, pedicle angle, screw-facet angle, screw-endplate angle, and distance between the head of the screws and the facet) were measured. BMI, age, diagnosis, and navigation assistance were included in the study. Risk factors were analyzed to determine which factors had an effect on FJV, and the cut-off was calculated for each parameter.
This study included 119 patients, with a mean age of 63 years. FJV occurred in 13/119 (10.9%) patients and 15/238 (6.3%) joints, respectively. No FJV occurred in 120 joints operated with navigation-assistance and 15/178 (8.4%) joints operated without navigation (p=.01). We found an increasing proportion of violations at more caudal levels: no violations occurred in eight patients with lumbar at L1 or L2, and 1/40 (2.5%), 7/158 (4.4%), and 7/32 (21.9%) of violations occurred at L3, L4, and L5, respectively (p=.01). The diameter of the facet in the axial cut, facet angle, screw facet angle, and distance between the head of the screw and facet were statistically significant in determining the increasing rate of FJV after multivariate analysis was performed (AROC=0.9486, p≤.05). The cutoff point for each radiographic parameter were diameter of facet in the axial ≥17.5 mm, diameter of facet in coronal plane ≥19.5 mm, facet angle ≥41.5, screw-facet angle ≥39, and distance between facet and the screw ≥-2.6 mm. The estimated probability of FJV was 96.9% when every parameter was greater than the cut-off point.
An increase in the facet diameter in the axial plane, coronal plane, facet angle, screw facet angle, and the distance between the dome of the screw and facet are risk factors for FJV. Surgeons can avoid violations when radiographic considerations are done. Careful screw placement and good entry points for instrumentation may decrease the rate of facet violation.
微创腰椎椎间融合术的趋势正在增加,而邻近节段退变(ASD)是该手术的并发症之一,其中小关节突关节侵犯(FJV)是一个原因。在经皮器械操作过程中可能会发生 FJV。本研究旨在确定影响微创腰椎椎间融合术中小关节突关节侵犯的危险因素。
确定 FJV 的危险因素以及对侵犯有强烈影响的因素。
回顾性研究。
2018 年 6 月至 2019 年 12 月接受微创腰椎椎间融合伴经皮螺钉固定的患者。
术后 6 个月内通过 CT 扫描评估 FJV 的患病率,对扫描的轴位、冠状位和矢状位进行评估。FJV 定义为至少在 CT 扫描的一个平面中可见螺钉位于小关节突关节内。使用 CT 扫描测量放射学参数,包括小关节突关节在轴向、冠状和矢状面的直径,由小关节突直径定义。小关节突角(FA)、椎弓根角(PA)、螺钉-小关节突角(SFA)、螺钉-终板角(SEA)和矢状面小关节突上缘(SD)与螺钉头不同。最后,在 MRI 的轴向切面上测量腰背肌的深度。
本研究分析了 2018 年 6 月至 2019 年 12 月期间接受微创腰椎椎间融合术的 119 例患者。在所有层面均使用 CT 检查上极小关节突关节侵犯。测量放射学参数(小关节突直径、小关节突角、椎弓根角、螺钉-小关节突角、螺钉-终板角和螺钉头与小关节突之间的距离)。包括 BMI、年龄、诊断和导航辅助等因素。分析危险因素以确定哪些因素对 FJV 有影响,并计算每个参数的截止值。
本研究共纳入 119 例患者,平均年龄 63 岁。13/119(10.9%)例患者和 15/238(6.3%)个关节发生 FJV。120 个关节在导航辅助下手术未发生 FJV,178 个关节在无导航辅助下手术未发生 FJV(p=.01)。我们发现侵犯的比例在更尾端的水平增加:在 8 例腰椎为 L1 或 L2 的患者中未发生侵犯,在 L3、L4 和 L5 分别有 1/40(2.5%)、7/158(4.4%)和 7/32(21.9%)的侵犯(p=.01)。在多变量分析后,轴向小关节突直径、小关节突角、螺钉-小关节突角和螺钉头与小关节突之间的距离在确定 FJV 发生率增加方面具有统计学意义(AROC=0.9486,p≤.05)。每个放射学参数的截止点分别为轴向小关节突直径≥17.5mm、冠状面小关节突直径≥19.5mm、小关节突角≥41.5、螺钉-小关节突角≥39、小关节突与螺钉之间的距离≥-2.6mm。当每个参数均大于截止值时,FJV 的估计概率为 96.9%。
轴向平面、冠状平面、小关节突角、螺钉-小关节突角和螺钉头与小关节突之间的距离增加是 FJV 的危险因素。外科医生可以在进行放射学考虑时避免侵犯。小心放置螺钉和良好的器械进入点可能会降低小关节突侵犯的发生率。
