局部复发直肠癌剂量递增质子再照射前瞻性 II 期试验中的分段间运动稳健性

IF 3.4 Q2 ONCOLOGY

Physics and Imaging in Radiation Oncology Pub Date : 2024-07-01 DOI:10.1016/j.phro.2024.100634

Christina G. Truelsen , Heidi S. Rønde , Jesper F. Kallehauge , Laurids Ø. Poulsen , Birgitte M. Havelund , Bodil G. Pedersen , Lene H. Iversen , Karen-Lise G. Spindler , Camilla S. Kronborg

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引用次数: 0

摘要

背景和目的强度调制质子疗法（IMPT）能够生成保形剂量计划，并具有疏通危险器官（OAR）的潜力。然而，骨盆 IMPT 的稳健性受到了解剖结构持续变化导致的分段间运动的挑战。在这项研究中，前瞻性 II 期研究 ReRad-II 对局部复发直肠癌（LRRC）的剂量递增质子再照射进行了研究，量化了分段间运动对目标覆盖和 OAR 剂量的剂量学影响。对可切除的 LRRC 患者进行了新辅助 IMPT（55 Gy(RBE)/44Fx ）评估，对不可切除的复发患者进行了最终 IMPT（57.5-65 Gy(RBE)/46-52Fx ）评估。在治疗过程中，通过 12 次计划计算机断层扫描 (CT)（pCT）和 47 次重复对照 CT 扫描（cCT），对稳健优化的三场 IMPT 的靶点覆盖率和 OAR 剂量进行了评估。对每次 cCT 的目标覆盖率和 OAR 剂量进行了重新计算，并评估了平均剂量比（pCT/cCT-ratio）和目标覆盖率（V95%）。在稳健性评估中，每个 cCT 的 V95% 目标覆盖率都高于公认的最坏情况。观察到膀胱、肠袋和肠环容积有相当大的差异。膀胱的OAR比值变化最大（pCT/cCT比值：1.3（范围：0.5-4.7））。分段间移动导致OAR剂量在临床可接受范围内变化。

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Inter-fraction motion robustness in a prospective phase II trial on dose-escalated proton reirradiation for locally recurrent rectal cancer

Background and purpose

Intensity modulated proton therapy (IMPT) enables generation of conformal dose plans with organ at risk (OAR) sparing potential. However, pelvic IMPT robustness is challenged by inter-fraction motion caused by constant anatomical variations. In this study, the dosimetric impact of inter-fraction motion on target coverage and dose to OAR was quantified in the prospective phase II study ReRad-II on dose-escalated proton reirradiation for locally recurrent rectal cancer (LRRC).

Materials and methods

The inter-fraction motion robustness was assessed for the initial twelve patients enrolled in the ReRad-II study. Patients with resectable LRRC were assessed for neoadjuvant IMPT (55 Gy(RBE)/44Fx) and unresectable recurrences for definitive IMPT (57.5–65 Gy(RBE)/ 46-52Fx). Target coverage and dose to OAR were assessed for robustly optimised three-field IMPT, on 12 plan computerized tomography (CT) scans (pCT) − and 47 repetitive control CT scans (cCTs) during the treatment. The target coverage and doses to OAR were re-calculated on each cCT and the mean dose ratio (pCT/cCT-ratio) and target coverage (V_95%) was evaluated.

Results

The target coverage was robust with a mean dose pCT/cCT-ratio of 1.00 (+/-1%). The V_95% target coverage for every cCT were above the accepted worst-case scenario in the robust evaluation. Considerable variation in bladder-, bowel bag-, and bowel loop volume was observed. The OAR with the largest variation in ratio was the bladder (pCT/cCT-ratio: 1.3 (range: 0.5–4.7).

Conclusions

IMPT for dose-escalated reirradiation of LRRC provided anatomically robust target coverage despite OAR changes. Inter-fraction motion resulted in OAR doses varying within clinically acceptable range.

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来源期刊

Physics and Imaging in Radiation Oncology Physics and Astronomy-Radiation

CiteScore

5.30

自引率

18.90%

发文量

审稿时长

6 weeks