Sarrut David, Boldea Vlad, Ayadi Myriam, Badel Jean-Noël, Ginestet Chantal, Clippe Sébastien, Carrie Christian
Department of Radiotherapy, Centre Léon Bérard, Lyon 69008, France.
Int J Radiat Oncol Biol Phys. 2005 Feb 1;61(2):594-607. doi: 10.1016/j.ijrobp.2004.08.007.
To study the interfraction reproducibility of breath-holding using active breath control (ABC), and to develop computerized tools to evaluate three-dimensional (3D) intrathoracic motion in each patient.
Since June 2002, 11 patients with non-small-cell lung cancer enrolled in a Phase II trial have undergone four CT scans: one during free-breathing (reference) and three using ABC. Patients left the room between breath-hold scans. The patient's breath was held at the same predefined phase of the breathing cycle (about 70% of the vital capacity) using the ABC device, then patients received 3D-conformal radiotherapy. Automated computerized tools for breath-hold CT scans were developed to analyze lung and tumor interfraction residual motions with 3D nonrigid registration.
All patients but one were safely treated with ABC for 7 weeks. For 6 patients, the lung volume differences were <5%. The mean 3D displacement inside the lungs was between 2.3 mm (SD 1.4) and 4 mm (SD 3.3), and the gross tumor volume residual motion was 0.9 mm (SD 0.4) to 5.9 mm (SD 0.7). The residual motion was slightly greater in the inferior part of the lung than the superior. For 2 patients, we detected volume changes >300 cm(3) and displacements >10 mm, probably owing to atelectasia and emphysema. One patient was excluded, and two others had incomplete data sets.
Breath-holding with ABC was effective in 6 patients, and discrepancies were clinically accountable in 2. The proposed 3D nonrigid registration method allows for personalized evaluation of breath-holding reproducibility with ABC. It will be used to adapt the patient-specific internal margins.
研究使用主动呼吸控制(ABC)技术进行屏气的分次间重复性,并开发计算机化工具以评估每位患者的三维(3D)胸内运动。
自2002年6月起,11例参加II期试验的非小细胞肺癌患者接受了4次CT扫描:一次自由呼吸时扫描(参考扫描),另外三次使用ABC技术进行扫描。屏气扫描之间患者离开扫描室。使用ABC设备使患者在呼吸周期的相同预定义阶段(约肺活量的70%)屏气,然后患者接受三维适形放疗。开发了用于屏气CT扫描的自动化计算机化工具,通过三维非刚性配准分析肺和肿瘤的分次间残余运动。
除1例患者外,所有患者均使用ABC安全治疗7周。6例患者的肺容积差异<5%。肺内平均三维位移在2.3毫米(标准差1.4)至4毫米(标准差3.3)之间,大体肿瘤体积的残余运动为0.9毫米(标准差0.4)至5.9毫米(标准差0.7)。肺下部的残余运动略大于上部。2例患者,我们检测到容积变化>300立方厘米,位移>10毫米,可能是由于肺不张和肺气肿。1例患者被排除,另外2例患者数据集不完整。
ABC屏气技术对6例患者有效,2例患者的差异在临床上可解释。所提出的三维非刚性配准方法允许对ABC屏气重复性进行个性化评估。它将用于调整患者特异性的内部边界。