立体定向放射外科治疗黑色素瘤脑转移瘤时,内照射剂量增加与局部控制率提高相关。
Internal dose escalation associated with increased local control for melanoma brain metastases treated with stereotactic radiosurgery.
作者信息
Kennedy William R, DeWees Todd A, Acharya Sahaja, Mahmood Mustafaa, Knutson Nels C, Goddu S Murty, Kavanaugh James A, Mitchell Timothy J, Rich Keith M, Kim Albert H, Leuthardt Eric C, Dowling Joshua L, Dunn Gavin P, Chicoine Michael R, Perkins Stephanie M, Huang Jiayi, Tsien Christina I, Robinson Clifford G, Abraham Christopher D
机构信息
Departments of1Radiation Oncology and.
2Department of Biomedical Statistics and Informatics, Mayo Clinic, Scottsdale, Arizona; and.
出版信息
J Neurosurg. 2020 Dec 11;135(3):855-861. doi: 10.3171/2020.7.JNS192210. Print 2021 Sep 1.
OBJECTIVE
The internal high-dose volume varies widely for a given prescribed dose during stereotactic radiosurgery (SRS) to treat brain metastases (BMs). This may be altered during treatment planning, and the authors have previously shown that this improves local control (LC) for non-small cell lung cancer BMs without increasing toxicity. Here, they seek to identify potentially actionable dosimetric predictors of LC after SRS for melanoma BM.
METHODS
The records of patients with unresected melanoma BM treated with single-fraction Gamma Knife RS between 2006 and 2017 were reviewed. LC was assessed on a per-lesion basis, defined as stability or a decrease in lesion size. Outcome-oriented approaches were utilized to determine optimal dichotomization for dosimetric variables relative to LC. Univariable and multivariable Cox regression analysis was implemented to evaluate the impact of collected parameters on LC.
RESULTS
Two hundred eighty-seven melanoma BMs in 79 patients were identified. The median age was 56 years (range 31-86 years). The median follow-up was 7.6 months (range 0.5-81.6 months), and the median survival was 9.3 months (range 1.3-81.6 months). Lesions were optimally stratified by volume receiving at least 30 Gy (V30) greater than or equal to versus less than 25%. V30 was ≥ and < 25% in 147 and 140 lesions, respectively. For all patients, 1-year LC was 83% versus 66% for V30 ≥ and < 25%, respectively (p = 0.001). Stratifying by volume, lesions 2 cm or less (n = 215) had 1-year LC of 82% versus 70% (p = 0.013) for V30 ≥ and < 25%, respectively. Lesions > 2 to 3 cm (n = 32) had 1-year LC of 100% versus 43% (p = 0.214) for V30 ≥ and < 25%, respectively. V30 was still predictive of LC even after controlling for the use of immunotherapy and targeted therapy. Radionecrosis occurred in 2.8% of lesions and was not significantly associated with V30.
CONCLUSIONS
For a given prescription dose, an increased internal high-dose volume, as indicated by measures such as V30 ≥ 25%, is associated with improved LC but not increased toxicity in single-fraction SRS for melanoma BM. Internal dose escalation is an independent predictor of improved LC even in patients receiving immunotherapy and/or targeted therapy. This represents a dosimetric parameter that is actionable at the time of treatment planning and warrants further evaluation.
目的
在立体定向放射外科治疗(SRS)脑转移瘤(BM)时,对于给定的处方剂量,内部高剂量体积变化很大。这在治疗计划过程中可能会改变,作者之前已经表明,这可以提高非小细胞肺癌脑转移瘤的局部控制率(LC),而不增加毒性。在此,他们试图确定SRS治疗黑色素瘤脑转移瘤后LC的潜在可操作剂量预测指标。
方法
回顾了2006年至2017年间接受单次伽玛刀放射外科治疗的未切除黑色素瘤脑转移瘤患者的记录。基于每个病灶评估LC,定义为病灶大小稳定或缩小。采用以结果为导向的方法来确定剂量学变量相对于LC的最佳二分法。进行单变量和多变量Cox回归分析,以评估收集的参数对LC的影响。
结果
共识别出79例患者的287个黑色素瘤脑转移瘤。中位年龄为56岁(范围31 - 86岁)。中位随访时间为7.6个月(范围0.5 - 81.6个月),中位生存期为9.3个月(范围1.3 - 81.6个月)。病灶根据接受至少30 Gy(V30)的体积进行最佳分层,大于或等于25%与小于25%。V30≥25%和<25%的病灶分别有147个和140个。对于所有患者,V30≥25%和<25%时,1年LC分别为83%和66%(p = 0.001)。按体积分层,2 cm及以下的病灶(n = 215),V30≥25%和<25%时,1年LC分别为82%和70%(p = 0.013)。2至3 cm以上的病灶(n = 32),V30≥25%和<25%时,1年LC分别为100%和43%(p = 0.214)。即使在控制了免疫治疗和靶向治疗的使用后,V30仍然是LC的预测指标。放射性坏死发生在2.8%的病灶中,与V30无显著相关性。
结论
对于给定的处方剂量,如V30≥25%等指标所示,内部高剂量体积增加与黑色素瘤脑转移瘤单次SRS治疗中LC改善相关,但不增加毒性。即使在接受免疫治疗和/或靶向治疗的患者中,内部剂量增加也是LC改善的独立预测指标。这代表了一个在治疗计划时可操作的剂量学参数,值得进一步评估。
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