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2
Stereotactic Body Radiotherapy (SBRT) for Oligometastatic Spine Metastases: An Overview.立体定向体部放射治疗(SBRT)用于寡转移脊柱转移瘤:综述
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3
Stereotactic Ablative Radiotherapy Uncertainties: Delineation, Setup and Motion.立体定向消融放射治疗的不确定性:勾画、摆位和运动。
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4
Reirradiation spine stereotactic body radiation therapy for spinal metastases: systematic review.脊柱转移瘤的再程立体定向体部放射治疗:系统评价
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Dosimetric evaluation of 4 different treatment modalities for curative-intent stereotactic body radiation therapy for isolated thoracic spinal metastases.针对孤立性胸椎转移瘤的根治性立体定向体部放射治疗的4种不同治疗方式的剂量学评估。
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6
Single-fraction spine SBRT end-to-end testing on TomoTherapy, Vero, TrueBeam, and CyberKnife treatment platforms using a novel anthropomorphic phantom.使用新型拟人化体模在螺旋断层放射治疗系统(TomoTherapy)、Vero直线加速器、TrueBeam直线加速器和射波刀治疗平台上进行单分割脊柱立体定向放射治疗的端到端测试。
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7
Impact of immobilization on intrafraction motion for spine stereotactic body radiotherapy using cone beam computed tomography.使用锥形束计算机断层扫描评估脊柱立体定向体部放疗中固定对分次内运动的影响。
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8
Stereotactic body radiation therapy: the report of AAPM Task Group 101.立体定向体部放射治疗:AAPM 工作组 101 报告。
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Evaluation of residual patient position variation for spinal radiosurgery using the Novalis image guided system.使用诺瓦利斯图像引导系统评估脊柱放射外科手术中患者残余体位变化
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脊柱立体定向体部放射治疗中分次内运动的时变特征。

Time Dependence of Intra-fractional Motion in Spinal Stereotactic Body Radiotherapy.

机构信息

Department of Radiation Oncology, Saitama Medical University International Medical Center, Saitama, Japan;

Department of Radiation Oncology, Saku Central Hospital Advanced Care Center, Nagano, Japan.

出版信息

In Vivo. 2021 Jul-Aug;35(4):2433-2437. doi: 10.21873/invivo.12521.

DOI:10.21873/invivo.12521
PMID:34182527
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8286509/
Abstract

BACKGROUND/AIM: Positional uncertainty in spinal stereotactic body radiotherapy (SBRT) may cause fatal error, therefore, we investigated the intra-fractional spinal motion during SBRT and its time dependency.

PATIENTS AND METHODS

Thirty-one patients who received SBRT using CyberKnife were enrolled in the study. 2D kV X-ray spine images in two directions were taken before and during treatment. Image acquisition intervals during treatment were set at 35-60 sec. Automatic image matchings were performed between the reference digital reconstructed radiography (DRR) and live images, and the spinal position displacements were logged in six translational and rotational directions. If the displacements exceeded 2 mm or 1 degree, the treatment beam delivery was interrupted and the patient position was corrected by moving couch, and the couch adjustments were also logged. Based on the information, the time-dependent accumulated translational and rotational displacements without any couch adjustments were calculated.

RESULTS

Spinal position displacements in all translational and rotational directions were correlated with elapsed treatment time. Especially, Right-Left displacements of >1 mm and >2 mm were observed at 4-6 and 8-10 min after treatment initiation, respectively. Rotational displacements in the Yaw direction >1° were observed at 10-15 min after treatment initiation.

CONCLUSION

The translational and rotational displacements systematically increased with elapsed treatment time. It is suggested that the spine position should be checked at least every 4-6 min or the treatment time should be limited within 4-6 minutes to ensure the irradiation accuracy within the millimeter or submillimeter range.

摘要

背景/目的:脊柱立体定向体放射治疗(SBRT)中的位置不确定性可能会导致致命错误,因此,我们研究了 SBRT 过程中的脊柱内部分钟运动及其时间依赖性。

患者和方法

本研究纳入了 31 名接受 CyberKnife 进行 SBRT 的患者。在治疗前后拍摄了二维千伏 X 射线脊柱图像。治疗过程中的图像采集间隔设置为 35-60 秒。在参考数字重建射线照相(DRR)和实时图像之间自动进行图像匹配,并记录脊柱位置的位移在六个平移和旋转方向上。如果位移超过 2 毫米或 1 度,则中断治疗束的传输,并通过移动治疗床来纠正患者的位置,并记录治疗床的调整。基于这些信息,计算无任何治疗床调整的累积平移和旋转位移随时间的变化。

结果

所有平移和旋转方向的脊柱位置位移都与治疗时间的流逝有关。特别是,治疗开始后 4-6 分钟和 8-10 分钟,左右方向的位移>1 毫米和>2 毫米,Yaw 方向的旋转位移>1°在治疗开始后 10-15 分钟观察到。

结论

平移和旋转位移随治疗时间的流逝而系统地增加。建议至少每 4-6 分钟检查一次脊柱位置,或者将治疗时间限制在 4-6 分钟内,以确保在毫米或亚毫米范围内的照射精度。