肝脏恶性肿瘤分次质子束治疗后的胸壁毒性。
Chest wall toxicity after hypofractionated proton beam therapy for liver malignancies.
机构信息
Department of Radiation Oncology, University of Washington Medical Center, Seattle, Washington.
Department of Radiation Oncology, University of Washington Medical Center, Seattle, Washington; Department of Radiology, University of Washington Medical Center, Seattle, Washington.
出版信息
Pract Radiat Oncol. 2018 Jul-Aug;8(4):287-293. doi: 10.1016/j.prro.2017.12.007. Epub 2017 Dec 24.
PURPOSE
Normal liver-sparing with proton beam therapy (PBT) allows for dose escalation in the treatment of liver malignancies, but it may result in high doses to the chest wall (CW). CW toxicity (CWT) data after PBT for liver malignancies are limited, with most published reports describing toxicity after a combination of hypofractionated proton and photon radiation therapy. We examined the incidence and associated factors for CWT after hypofractionated PBT for liver malignancies.
METHODS AND MATERIALS
We retrospectively reviewed the charts of 37 consecutive patients with liver malignancies (30 hepatocellular carcinoma, 6 intrahepatic cholangiocarcinoma, and 1 metastasis) treated with hypofractionated PBT. CWT was scored using Common Terminology Criteria for Adverse Events, version 4. Receiver-operating characteristic curves were used to identify patient and dosimetric factors associated with CWT and to determine optimal dose-volume histogram parameters/cutoffs. Cox regression univariate analysis was used to associate factors to time-dependent onset of CWT.
RESULTS
Thirty-nine liver lesions were treated with a median dose of 60 GyE (range, 35-67.5) in 15 fractions (range, 13-20). Median follow-up was 11 months (range, 2-44). Grade ≥2 and 3 CW pain occurred in 7 (19%) and 4 (11%) patients, respectively. Median time to onset of pain was 6 months (range, 1-14). No patients had radiographic rib fracture. On univariate analysis, CW equivalent 2 Gy dose with an α/β = 3 Gy (EQD2), V57 >20 cm (hazard ratio [HR], 2.7; P = .004), V63 >17 cm (HR, 2.7; P = .003), and V78 >8 cm (HR, 2.6; P = .003) had the strongest association with grade ≥2 CW pain, as did tumor dose of >75 Gy EQD2 (HR, 8.7; P = .03). No other patient factors were associated with CWT.
CONCLUSIONS
CWT after hypofractionated PBT for liver malignancies is clinically relevant. For a 15-fraction regimen, V47 >20 cm, V50 >17 cm, and V58 >8 cm were associated with higher rates of CWT. Further investigation of PBT techniques to reduce CW dose are warranted.
目的
质子束治疗(PBT)的正常肝脏保护作用可实现肝恶性肿瘤的剂量升级,但可能导致胸壁(CW)高剂量照射。PBT 治疗肝恶性肿瘤后的 CW 毒性(CWT)数据有限,大多数已发表的报告均描述了分次质子和光子放疗联合治疗后的毒性。我们研究了低分割 PBT 治疗肝恶性肿瘤后 CWT 的发生率和相关因素。
方法和材料
我们回顾性分析了 37 例肝恶性肿瘤(30 例肝细胞癌、6 例肝内胆管癌和 1 例转移癌)连续患者的病历,这些患者均接受了低分割 PBT 治疗。使用通用不良事件术语标准 4.0 版(CTCAE v4.0)对 CWT 进行评分。受试者工作特征(ROC)曲线用于确定与 CWT 相关的患者和剂量学因素,并确定最佳剂量-体积直方图参数/截止值。Cox 回归单因素分析用于将因素与 CWT 的时间依赖性发病相关联。
结果
39 个肝脏病变接受了 60 GyE(范围 35-67.5)的中位剂量,共 15 个分次(范围 13-20)。中位随访时间为 11 个月(范围 2-44)。分别有 7 例(19%)和 4 例(11%)患者出现≥2 级和 3 级 CW 疼痛。疼痛中位发病时间为 6 个月(范围 1-14)。无患者出现放射性肋骨骨折。单因素分析显示,CW 等效 2 Gy 剂量与 α/β=3 Gy(EQD2)(危险比 [HR],2.7;P=.004)、V57 >20 cm (HR,2.7;P=.003)、V63 >17 cm (HR,2.7;P=.003)和 V78 >8 cm(HR,2.6;P=.003)与≥2 级 CW 疼痛相关性最强,肿瘤剂量>75 Gy EQD2(HR,8.7;P=.03)也与 CWT 相关。无其他患者因素与 CWT 相关。
结论
低分割 PBT 治疗肝恶性肿瘤后 CWT 具有临床意义。对于 15 个分次的方案,V47 >20 cm、V50 >17 cm 和 V58 >8 cm 与更高的 CWT 发生率相关。需要进一步研究 PBT 技术以降低 CW 剂量。
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