Choma Theodore J, Denis Francis, Lonstein John E, Perra Joseph H, Schwender James D, Garvey Timothy A, Mullin William J
University of Missouri, Columbia, MO, USA.
J Spinal Disord Tech. 2006 Dec;19(8):547-53. doi: 10.1097/01.bsd.0000211221.74307.57.
The objective of this study is to evaluate the effectiveness of a specific methodology for plain radiographic assessment of lumbar pedicle screw position.
To evaluate the effectiveness of using orthogonal plain radiographs and a systematic method of interpretation, developed by the senior author, in assessing the placement of lumbar and lumbosacral pedicle screws.
This was an adult cadaver study of the accuracy of using plain radiographs or computed tomography to assess pedicle screw position. Plain radiographs were performed and compared with computed tomography (CT) scans. Gross anatomic dissections were performed to directly confirm screw position. Variables, including screw material, radiographic view, and screw dimensions, were assessed for their effect on the ability of physicians to determine pedicle screw position. Multiple readers were included in the study, including 1 spine Fellow, 3 experienced orthopedic spine surgeons, and 1 neuroradiologist.
Five adult cadaveric spines were instrumented with titanium pedicle screws from L1 to S1. Screws were placed outside the confines of the pedicle in all 4 quadrants or within the pedicle using a Latin-Square design. Each cadaver was imaged with orthogonal radiographs and high-resolution CT scans. The spines were then reimaged after the instrumentation was replaced with stainless steel screws placed in the identical position. Finally, each spine was dissected to assess the exact position of the screws. Images were read in a blinded fashion by 1 spine fellow, 2 staff surgeons, and a staff radiologist. The results were compared with the known screw positions at dissection.
In total, 120 pedicle screws were placed, 44 (38%) outside the confines of the pedicle. Sensitivity, defined as the percent of the misplaced screws that were correctly identified, was similar across the 3 diagnostic tests, but markedly improved when all CT formats were considered together. Similarly, specificity, defined as the percent of screws correctly read as being placed within the pedicle, was independent of radiographic examination. Sensitivity of the radiographic technique was 70.1% and specificity was 83.0%, whereas sensitivity for CT scans was 84.7% and specificity was 89.7%. There was an observed association with anatomic level, with a consistently less accuracy in detecting screw position at L1 with plain x-ray (P=0.001). Additionally, correct position of stainless steel screws was more difficult to detect as compared with titanium (P=0.033) using either x-rays or CT. Other variables examined, such as screw length and screw diameter, did not have an effect on the ability to read the positioning.
CT scans, often considered the "gold standard" for clinical assessment of pedicle screw placement, have limitations when validated with gross anatomical dissection. The described systematic method for evaluating pedicle screw placement using orthogonal plain radiographs attained accuracy comparable to high-resolution CT scans.
本研究的目的是评估一种用于腰椎椎弓根螺钉位置X线平片评估的特定方法的有效性。
评估使用正交X线平片和由资深作者开发的系统解读方法来评估腰椎和腰骶椎弓根螺钉置入情况的有效性。
这是一项关于使用X线平片或计算机断层扫描评估椎弓根螺钉位置准确性的成人尸体研究。进行X线平片检查并与计算机断层扫描(CT)扫描结果进行比较。进行大体解剖以直接确认螺钉位置。评估包括螺钉材料、X线投照角度和螺钉尺寸等变量对医生确定椎弓根螺钉位置能力的影响。研究纳入了多名阅片者,包括1名脊柱专科住院医师、3名经验丰富的骨科脊柱外科医生和1名神经放射科医生。
对5具成人尸体脊柱从L1至S1置入钛制椎弓根螺钉。采用拉丁方设计将螺钉置于椎弓根边界外的所有4个象限或椎弓根内。每具尸体均进行正交X线片和高分辨率CT扫描。在用相同位置的不锈钢螺钉替换器械后,再次对脊柱进行成像。最后,对每具脊柱进行解剖以评估螺钉的准确位置。由1名脊柱专科住院医师、2名外科主治医师和1名放射科主治医师以盲法阅读图像。将结果与解剖时已知的螺钉位置进行比较。
总共置入了120枚椎弓根螺钉,其中44枚(38%)位于椎弓根边界外。敏感度定义为正确识别出的位置不当螺钉的百分比,在3种诊断检查中相似,但当将所有CT格式综合考虑时显著提高。同样,特异度定义为被正确判定为位于椎弓根内的螺钉的百分比,与X线检查无关。X线技术的敏感度为70.1%,特异度为83.0%,而CT扫描的敏感度为84.7%,特异度为89.7%。观察到与解剖节段有关,用普通X线检测L1节段螺钉位置的准确性始终较低(P = 0.001)。此外,与钛制螺钉相比,使用X线或CT检测不锈钢螺钉的正确位置更困难(P = 0.033)。所检查的其他变量,如螺钉长度和螺钉直径,对解读定位能力没有影响。
CT扫描通常被认为是临床评估椎弓根螺钉置入情况的“金标准”,但在通过大体解剖验证时存在局限性。所描述的使用正交X线平片评估椎弓根螺钉置入情况的系统方法获得了与高分辨率CT扫描相当的准确性。
