用磁共振图像确定正交模拟膜上颅内靶体积的简单方法。

J W Goldwein, R Zimmerman, B W Corn
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引用次数: 0

摘要

描述了一种模拟颅内辐射场的技术。该方法包括从磁共振(MR)扫描图像投影到正交模拟射线片。这种方法通常可以补充,偶尔也可以消除计算机断层扫描(CT)辅助治疗模拟在脑辐照中的共面束排列的需要。由于磁共振成像几乎可以在任何平面上进行,并且通常在矢状面和冠状面进行,因此使用该技术将肿瘤体积转移到正交模拟膜上可以简单而准确地完成。该方法采用廉价的摄影放大器将矢状面磁共振扫描叠加在侧颅骨模拟膜上。肿瘤体积和其他感兴趣的结构被处理到胶片上,适当的场和块被轮廓化。只要有合适的MR图像,该技术可以很容易地与常规模拟会议结合使用。最适合规划治疗位于中线的肿瘤(如髓母细胞瘤、颅咽管瘤、脑干胶质瘤、生殖细胞瘤等)。该技术也被用于验证ct辅助治疗计划的准确性。通过相对较小的修改,偏心肿瘤也可以精确地规划,尽管我们的描述仅限于脑肿瘤,但该技术可以外推到其他部位的肿瘤。
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Easy method for defining intracranial target volumes on orthogonal simulation films using magnetic resonance images.

A technique is described for simulating intracranial radiation fields. The method involves the projection of images from magnetic resonance (MR) scans to orthogonal simulation radiographs. This approach often can supplement and occasionally obviate the need for computerized tomographic (CT) assisted treatment simulation for co-planar beam arrangements in brain irradiation. Because magnetic resonance imaging can be performed in virtually any plane and is routinely carried out in sagittal and coronal planes, transferring tumor volumes to orthogonal simulation films using this technique can be done simply and accurately. The method employs an inexpensive photographic enlarger to superimpose sagittal MR scans on the lateral skull simulation films. Tumor volumes along with other structures of interest are treated onto the film and appropriate fields and blocks are contoured. The technique is performed easily in conjunction with routine simulation sessions, provided that the appropriate MR images are available. It is most suitable for planning treatment of tumors located at midline (e.g., medulloblastomas, craniopharyngiomas, brainstem gliomas, germinomas, etc.). The technique has also been used to verify the accuracy of CT-assisted treatment planning. With relatively minor modifications, eccentric tumors also can be accurately planned, and although we have restricted our description to brain tumours, the technique may be extrapolated to tumors in other sites.

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