立体定向放射治疗中质子束线扫描准直孔径的剂量学评估及临床应用

Dosimetric evaluation and clinical application of collimated apertures with proton beam line scanning in stereotactic radiotherapy.

作者信息

Chou Chen-Yu, Huang Hsiao-Chieh, Lee Shen-Hao, Hsu Shih-Ming

机构信息

Department of Radiation Oncology, Linkou Chang Gung Memorial Hospital, Taoyuan City, Taiwan (R.O.C).

Department of Biomedical Imaging and Radiological Sciences, National Yang Ming Chiao Tung University, Taipei City, Taiwan (R.O.C).

出版信息

J Appl Clin Med Phys. 2025 Jul;26(7):e70128. doi: 10.1002/acm2.70128. Epub 2025 May 29.

DOI:10.1002/acm2.70128

PMID:40439858

Abstract

PURPOSE

Stereotactic radiotherapy (SRT) is a highly effective treatment with precision for small, localized lesions. Proton therapy, characterized by the Bragg peak, offers superior dose conformity compared to photon-based approaches. However, challenges remain in minimizing lateral penumbra and optimizing dose delivery, particularly for small targets. This study presents the first clinical application of collimated apertures integrated with the proton line scanning technique for proton stereotactic radiotherapy (PSRT). The aim was to evaluate the dosimetric advantages and clinical feasibility of this innovative approach.

METHODS

Over a 1-year period, 30 patients with small lesions, including choroid melanoma and arteriovenous malformations, were treated using proton line scanning. Two planning strategies were evaluated: uncollimated proton line scanning (UPLS) and collimated proton line scanning (CPLS), incorporating patient-specific apertures. Dosimetric comparisons were conducted using the Homogeneity Index (HI), Paddick Conformity Index (CI), Gradient Index (GI), and R50%. Treatment accuracy was validated using absolute dose measurements and Gamma Passing Rate (GPR) analysis under the criteria of 3%/3 and 2%/2 mm.

RESULTS

Plans incorporating customized collimated apertures showed significant improvements in dose conformity, with higher CI values (p < 0.001), and exhibited steeper dose fall-off, as reflected in lower GI and R50% values (p < 0.001). A trend toward more homogeneous dose distributions was also observed (p < 0.001). GPR analysis confirmed high treatment accuracy, with an average value of 99.00 ± 1.83% (3%/3 mm) and 91.06 ± 4.91% (2%/2 mm).

CONCLUSIONS

Integrating customized collimated apertures with proton beam line scanning is clinically feasible, improving precision, dose conformity, and healthy tissue sparing in PSRT. These findings support adopting this novel approach to advance precision proton therapy for small lesions.

摘要

目的

立体定向放射治疗（SRT）是一种对小型局限性病变具有高精度的有效治疗方法。质子治疗以布拉格峰为特征，与基于光子的方法相比，具有更好的剂量适形性。然而，在最小化侧向半影和优化剂量输送方面仍存在挑战，特别是对于小靶区。本研究展示了准直孔径与质子线扫描技术相结合在质子立体定向放射治疗（PSRT）中的首次临床应用。目的是评估这种创新方法的剂量学优势和临床可行性。

方法

在1年的时间里，对30例患有小型病变（包括脉络膜黑色素瘤和动静脉畸形）的患者进行了质子线扫描治疗。评估了两种治疗计划策略：非准直质子线扫描（UPLS）和准直质子线扫描（CPLS），后者采用了个体化孔径。使用均匀性指数（HI）、帕迪克适形指数（CI）、梯度指数（GI）和R50%进行剂量学比较。在3%/3和2%/2 mm标准下，通过绝对剂量测量和伽马通过率（GPR）分析验证治疗准确性。

结果

采用定制准直孔径的治疗计划在剂量适形性方面有显著改善，CI值更高（p < 0.001），并且剂量下降更陡峭，这体现在较低的GI和R50%值上（p < 0.001）。还观察到剂量分布更均匀的趋势（p < 0.001）。GPR分析证实了高治疗准确性，平均值为99.00 ± 1.83%（3%/3 mm）和91.06 ± 4.91%（2%/2 mm）。