Zinreich S J, Tebo S A, Long D M, Brem H, Mattox D E, Loury M E, vander Kolk C A, Koch W M, Kennedy D W, Bryan R N
Department of Neuroradiology, Johns Hopkins Medical Institutions, Baltimore, MD 21205.
Radiology. 1993 Sep;188(3):735-42. doi: 10.1148/radiology.188.3.8351341.
To evaluate the spatial accuracy of a rapid interactive method of transferring computed tomographic (CT) information between its display on a computer screen to its source (test object, operating field), a multidimensional computer combined with a six-jointed position-sensing mechanical arm was tested with a Plexiglas model consisting of 50 rods of varied height and known location, a plastic replica of the skull, and, subsequently, three patients. The median error value between image and real location was 1-2 mm (P > .95), regardless of the registration target sites. The accuracy, however, increased with the selection of widespread registration points, and 95% of all errors were below 3.70 mm (P > .95). The results compare favorably with the four most commonly used stereotaxic framed units. A misregistration error of 0.3-2.2 mm was found during intraoperative correlation between anatomy on the CT display and actual anatomic location in the operative field.
为评估一种在计算机屏幕上的计算机断层扫描(CT)信息显示与其源(测试对象、手术区域)之间快速交互传输方法的空间准确性,使用一个由50根高度各异且位置已知的杆组成的有机玻璃模型、一个颅骨塑料复制品以及随后的三名患者,对一台结合了六关节位置传感机械臂的多维计算机进行了测试。无论配准目标部位如何,图像与实际位置之间的中位误差值为1 - 2毫米(P >.95)。然而,通过选择广泛分布的配准点,准确性会提高,所有误差的95%低于3.70毫米(P >.95)。结果与四种最常用的立体定向框架装置相比具有优势。在术中CT显示的解剖结构与手术区域实际解剖位置之间的相关性研究中,发现配准误差为0.3 - 2.2毫米。