Rahimian Javad, Chen Joseph C, Rao Ajay A, Girvigian Michael R, Miller Michael J, Greathouse Hugh E
Departments of Radiation Oncology and Neurological Surgery, Southern California Permanente Medical Group, Los Angeles, 90027, USA.
J Neurosurg. 2004 Nov;101 Suppl 3:351-5.
Stringent geometrical accuracy and precision are required in the stereotactic radiosurgical treatment of patients. Accurate targeting is especially important when treating a patient in a single fraction of a very high radiation dose (90 Gy) to a small target such as that used in the treatment of trigeminal neuralgia (3 to 4-mm diameter). The purpose of this study was to determine the inaccuracies in each step of the procedure including imaging, fusion, treatment planning, and finally the treatment. The authors implemented a detailed quality-assurance program.
Overall geometrical accuracy of the Novalis stereotactic system was evaluated using a Radionics Geometric Phantom Chamber. The phantom has several magnetic resonance (MR) and computerized tomography (CT) imaging-friendly objects of various shapes and sizes. Axial 1-mm-thick MR and CT images of the phantom were acquired using a T1-weighted three-dimensional spoiled gradient recalled pulse sequence and the CT scanning protocols used clinically in patients. The absolute errors due to MR image distortion, CT scan resolution, and the image fusion inaccuracies were measured knowing the exact physical dimensions of the objects in the phantom. The isocentric accuracy of the Novalis gantry and the patient support system was measured using the Winston-Lutz test. Because inaccuracies are cumulative, to calculate the system's overall spatial accuracy, the root mean square (RMS) of all the errors was calculated. To validate the accuracy of the technique, a 1.5-mm-diameter spherical marker taped on top of a radiochromic film was fixed parallel to the x-z plane of the stereotactic coordinate system inside the phantom. The marker was defined as a target on the CT images, and seven noncoplanar circular arcs were used to treat the target on the film. The calculated system RMS value was then correlated with the position of the target and the highest density on the radiochromic film. The mean spatial errors due to image fusion and MR imaging were 0.41+/-0.3 and 0.22+/-0.1 mm, respectively. Gantry and couch isocentricities were 0.3+/-0.1 and 0.6+/-0.15 mm, respectively. The system overall RMS values were 0.9 and 0.6 mm with and without the couch errors included, respectively (isocenter variations due to couch rotation are microadjusted between couch positions). The positional verification of the marker was within 0.7+/-0.1 mm of the highest optical density on the radiochromic film, correlating well with the system's overall RMS value. The overall mean system deviation was 0.32+/-0.42 mm.
The highest spatial errors were caused by image fusion and gantry rotation. A comprehensive quality-assurance program was developed for the authors' stereotactic radiosurgery program that includes medical imaging, linear accelerator mechanical isocentricity, and treatment delivery. For a successful treatment of trigeminal neuralgia with a 4-mm cone, the overall RMS value of equal to or less than 1 mm must be guaranteed.
立体定向放射外科治疗患者时需要严格的几何精度和精准度。当对患者单次给予非常高的辐射剂量(90 Gy)至小靶区(如用于治疗三叉神经痛,直径3至4毫米)时,精确靶向尤为重要。本研究的目的是确定该过程各步骤中的误差,包括成像、融合、治疗计划以及最终的治疗。作者实施了一项详细的质量保证计划。
使用Radionics几何体模室评估Novalis立体定向系统的总体几何精度。该体模有几个形状和大小各异、对磁共振(MR)和计算机断层扫描(CT)成像友好的物体。使用T1加权三维扰相梯度回波脉冲序列以及临床上用于患者的CT扫描协议获取体模的1毫米厚轴向MR和CT图像。已知体模中物体的确切物理尺寸,测量由MR图像失真、CT扫描分辨率和图像融合误差导致的绝对误差。使用温斯顿-卢茨测试测量Novalis机架和患者支撑系统的等中心精度。由于误差是累积的,为计算系统的总体空间精度,计算所有误差的均方根(RMS)。为验证该技术的准确性,将一个直径1.5毫米的球形标记贴在放射性色胶片顶部,使其平行于体模内立体定向坐标系的x-z平面固定。在CT图像上将该标记定义为靶区,并使用七条非共面圆弧对胶片上的靶区进行治疗。然后将计算出的系统RMS值与靶区位置和放射性色胶片上的最高密度相关联。图像融合和MR成像导致的平均空间误差分别为0.41±0.3毫米和0.22±0.1毫米。机架和治疗床的等中心度分别为0.3±0.1毫米和0.6±0.15毫米。包含和不包含治疗床误差时,系统的总体RMS值分别为0.9毫米和0.6毫米(由于治疗床旋转导致的等中心变化在治疗床位置之间进行微调整)。标记的位置验证在放射性色胶片上最高光密度的0.7±0.1毫米范围内,与系统的总体RMS值相关性良好。系统的总体平均偏差为0.32±0.42毫米。
最高的空间误差由图像融合和机架旋转引起。为作者的立体定向放射外科计划制定了一个全面的质量保证计划,包括医学成像、直线加速器机械等中心度和治疗实施。对于使用4毫米射野成功治疗三叉神经痛,必须保证总体RMS值等于或小于1毫米。
