脊柱立体定向体部放射治疗低分割后放射性脊髓炎的风险
Radiation Myelitis Risk After Hypofractionated Spine Stereotactic Body Radiation Therapy.
作者信息
Jackson Christopher B, Boe Lillian A, Zhang Lei, Apte Aditya, Ruppert Lisa M, Haseltine Justin M, Mueller Boris A, Schmitt Adam M, Yang Jonathan T, Newman W Christopher, Barzilai Ori, Bilsky Mark H, Yamada Yoshiya, Jackson Andrew, Lis Eric, Higginson Daniel S
机构信息
Department of Radiation Oncology, Memorial Sloan Kettering Cancer Center, New York, New York.
Department of Epidemiology and Biostatistics, Memorial Sloan Kettering Cancer Center, New York, New York.
出版信息
JAMA Oncol. 2025 Feb 1;11(2):128-134. doi: 10.1001/jamaoncol.2024.5387.
IMPORTANCE
Stereotactic body radiation therapy (SBRT) for spinal metastases improves symptomatic outcomes and local control compared to conventional radiotherapy. Treatment failure most often occurs within the epidural space, where dose is constrained by the risk of radiation myelitis (RM). Current constraints designed to prevent RM after spine SBRT are derived from limited data.
OBJECTIVE
To characterize the risk of RM after spine SBRT and to update the dosimetric constraints for preventing it.
DESIGN, SETTING, AND PARTICIPANTS: This cohort study was conducted in a single tertiary cancer care center with patients treated for spinal metastases from 2014 to 2023. All included participants had undergone spine SBRT, had a minimum of 1-month follow-up with magnetic resonance imaging (MRI), a maximal cord dose to a voxel (Dmax) greater than 0 Gy, and no overlapping prior radiotherapy. In all, 2051 patients received SBRT to 2835 spinal metastases (levels C1-L2) during the study period.
EXPOSURES
Three-fraction spine SBRT to a prescription dose of 27 to 36 Gy.
MAIN OUTCOMES AND MEASURES
RM defined as radiographic evidence of spinal cord injury in the treatment field, classified as grade (G) 1 to G4 or G3 to G4 per the Common Terminology Criteria for Adverse Events, version 5.0. Multiple dosimetric parameters of the true spinal cord structure were assessed for an association with risk of RM to determine the important covariates associated with this toxicity.
RESULTS
The analysis included 1423 patients (mean [SD] age, 61.6 [12.9] years; 695 [48.8%] females and 728 [51.1%] males) who received SBRT for 1904 spinal metastases. Among them, 30 cases of RM were identified, 19 of which were classified as G3 to G4. Two years after SBRT, the rate of G1 to G4 RM was 1.8% (95% CI, 1.2%-2.5%) and the rate of G3 to G4 RM was 1.1% (95% CI, 0.7%-1.7%). The minimum dose to the 0.1 cm3 of spinal cord receiving the greatest dose (D0.1cc) was the most important covariate on univariable cause-specific hazards regression for RM (for G3 to G4: hazard ratio, 2.14; 95% CI, 1.68-2.72; P < .001). A true cord D0.1cc of 19.1 Gy and Dmax of 20.8 Gy estimated a 1.0% risk (95% CI, 0.3%-1.6% and 0.4%-1.6%, respectively) of G3 to G4 RM 2 years after SBRT.
CONCLUSIONS AND RELEVANCE
The findings of this cohort study indicate that a cord (myelogram or MRI-derived) D0.1cc constraint of 19.1 Gy and a Dmax constraint of 20.8 Gy correspond with a 1.0% risk of G3 to G4 RM at 2 years.
重要性
与传统放疗相比,立体定向体部放射治疗(SBRT)用于脊柱转移瘤可改善症状结局并提高局部控制率。治疗失败最常发生在硬膜外间隙,该部位的剂量受到放射性脊髓炎(RM)风险的限制。目前用于预防脊柱SBRT后发生RM的剂量限制是基于有限的数据得出的。
目的
描述脊柱SBRT后发生RM的风险,并更新预防RM的剂量限制。
设计、地点和参与者:这项队列研究在一家单一的三级癌症护理中心进行,研究对象为2014年至2023年期间接受脊柱转移瘤治疗的患者。所有纳入的参与者均接受了脊柱SBRT,至少有1个月的磁共振成像(MRI)随访,体素的最大脊髓剂量(Dmax)大于0 Gy,且既往无重叠放疗。在研究期间,共有2051例患者接受了SBRT治疗2835处脊柱转移瘤(C1-L2节段)。
暴露因素
分三次给予脊柱SBRT,处方剂量为27至36 Gy。
主要结局和测量指标
RM定义为治疗区域脊髓损伤的影像学证据,根据《不良事件通用术语标准》第5.0版分为1至4级或3至4级。评估真实脊髓结构的多个剂量学参数与RM风险的相关性,以确定与这种毒性相关的重要协变量。
结果
分析纳入了1423例患者(平均[标准差]年龄为61.6[12.9]岁;695例[48.8%]为女性,728例[51.1%]为男性),他们接受了SBRT治疗1904处脊柱转移瘤。其中,确诊30例RM,其中19例分类为3至4级。SBRT后两年,1至4级RM的发生率为1.8%(95%CI,1.2%-2.5%),3至4级RM的发生率为1.1%(95%CI,0.7%-1.7%)。在RM的单变量特定病因风险回归中,接受最大剂量的0.1 cm³脊髓的最小剂量(D0.1cc)是最重要的协变量(对于3至4级:风险比,2.14;95%CI,1.68-2.72;P < .001)。真实脊髓D0.1cc为19.1 Gy和Dmax为20.8 Gy估计SBRT后两年发生3至4级RM的风险为1.0%(95%CI,分别为0.3%-1.6%和0.4%-1.6%)。
结论和相关性
这项队列研究的结果表明,脊髓(脊髓造影或MRI衍生)D0.1cc限制为19.1 Gy和Dmax限制为20.8 Gy与两年时发生3至4级RM的风险为1.0%相对应。
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