使用动态准直提高两种点扫描质子治疗输送系统的靶区适形度。
Toward improved target conformity for two spot scanning proton therapy delivery systems using dynamic collimation.
作者信息
Moignier Alexandra, Gelover Edgar, Smith Blake R, Wang Dongxu, Flynn Ryan T, Kirk Maura L, Lin Liyong, Solberg Timothy D, Lin Alexander, Hyer Daniel E
机构信息
Department of Radiation Oncology, University of Iowa, 200 Hawkins Drive, Iowa City, Iowa 52242.
Department of Radiation Oncology, University of Pennsylvania, TRC 2 West, 3400 Civic Center Boulevard, Philadelphia, Pennsylvania 19104.
出版信息
Med Phys. 2016 Mar;43(3):1421-7. doi: 10.1118/1.4942375.
PURPOSE
To quantify improvement in target conformity in brain and head and neck tumor treatments resulting from the use of a dynamic collimation system (DCS) with two spot scanning proton therapy delivery systems (universal nozzle, UN, and dedicated nozzle, DN) with median spot sizes of 5.2 and 3.2 mm over a range of energies from 100 to 230 MeV.
METHODS
Uncollimated and collimated plans were calculated with both UN and DN beam models implemented within our in-house treatment planning system for five brain and ten head and neck datasets in patients previously treated with spot scanning proton therapy. The prescription dose and beam angles from the clinical plans were used for both the UN and DN plans. The average reduction of the mean dose to the 10-mm ring surrounding the target between the uncollimated and collimated plans was calculated for the UN and the DN. Target conformity was analyzed using the mean dose to 1-mm thickness rings surrounding the target at increasing distances ranging from 1 to 10 mm.
RESULTS
The average reductions of the 10-mm ring mean dose for the UN and DN plans were 13.7% (95% CI: 11.6%-15.7%; p < 0.0001) and 11.5% (95% CI: 9.5%-13.5%; p < 0.0001) across all brain cases and 7.1% (95% CI: 4.4%-9.8%; p < 0.001) and 6.3% (95% CI: 3.7%-9.0%; p < 0.001), respectively, across all head and neck cases. The collimated UN plans were either more conformal (all brain cases and 60% of the head and neck cases) than or equivalent (40% of the head and neck cases) to the uncollimated DN plans. The collimated DN plans offered the highest conformity.
CONCLUSIONS
The DCS added either to the UN or DN improved the target conformity. The DCS may be of particular interest for sites with UN systems looking for a more economical solution than upgrading the nozzle to improve the target conformity of their spot scanning proton therapy system.
目的
量化在100至230 MeV能量范围内,使用具有两种光斑扫描质子治疗输送系统(通用喷嘴,UN,和专用喷嘴,DN)的动态准直系统(DCS)对脑肿瘤和头颈部肿瘤治疗中靶区适形性的改善情况,其中UN和DN的光斑尺寸中位数分别为5.2和3.2毫米。
方法
在我们内部的治疗计划系统中,针对先前接受过光斑扫描质子治疗的5例脑肿瘤和10例头颈部数据集患者,使用UN和DN束流模型计算了未准直和准直计划。UN和DN计划均采用临床计划中的处方剂量和射束角度。计算UN和DN在未准直和准直计划之间围绕靶区的10毫米环的平均剂量的平均降低值。使用在1至10毫米范围内增加距离时围绕靶区的1毫米厚度环的平均剂量来分析靶区适形性。
结果
在所有脑肿瘤病例中,UN计划和DN计划的10毫米环平均剂量的平均降低值分别为13.7%(95%置信区间:11.6%-15.7%;p<0.0001)和11.5%(95%置信区间:9.5%-13.5%;p<0.0001);在所有头颈部病例中,分别为7.1%(95%置信区间:4.4%-9.8%;p<0.001)和6.3%(95%置信区间:3.7%-9.0%;p<0.001)。准直的UN计划在所有脑肿瘤病例和60%的头颈部病例中比未准直的DN计划更适形,在40%的头颈部病例中与未准直的DN计划相当。准直的DN计划具有最高的适形性。
结论
添加到UN或DN的DCS改善了靶区适形性。对于拥有UN系统的机构来说,如果他们正在寻找一种比升级喷嘴更经济的解决方案来提高其光斑扫描质子治疗系统的靶区适形性,那么DCS可能会特别受关注。
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