Spinal cord biological safety of image-guided radiation therapy versus conventional radiation therapy

Tumor models were simulated in purebred Beagles at the T9-10 levels of the spinal cord and treated with spinal image-guided radiation therapy or conventional radiation therapy with 50 or 70 Gy total radiation. Three months after radiation, neuronal injury at the T9-10 levels was observed, including reversible injury induced by spinal image-guided radiation therapy and apoptosis induced by conventional radiation therapy. The number of apoptotic cells and expression of the proapoptotic protein Fas were significantly reduced, but expression of the anti-apoptotic protein heat shock protein 70 was significantly increased after image-guided radiation therapy compared with the conventional method of the same radiation dose. Moreover, the spinal cord cell apoptotic index positively correlated with the ratio of Fas/heat shock protein 70. These findings indicate that 3 months of radiation therapy can induce a late response in the spinal cord to radiation therapy; image-guided radiation therapy is safer and results in less neuronal injury compared with conventional radiation therapy.

The Reproducibility of Patient Setup for Head and Neck Cancers Treated with Image-Guided and Intensity-Modulated Radiation Therapies Using Thermoplastic Immobilization Device

The reproducibility of patient setup is an important issue for head and neck cancers treated with intensity-modulated radiation therapy (IMRT). In this study, an image-guided radiation therapy (IGRT) system has been used to minimize the uncertainty of patient setup while standard thermoplastic masks were used to provide adequate immobilization for the head and neck. However, they do not provide sufficient immobilization of the shoulders, which is an important requirement in comprehensive nodal irradiation. Therefore, we investigated the setup and rotational shifts in head and neck cancer patients undergoing IMRT for which this immobilization device had been used together with an IGRT system. The setup and rotational shifts of patients were analyzed using the ExacTrac X-ray 6D IGRT system. The patients were classified as having head and neck tumors in the upper or lower regions. The upper neck nodes included lymph nodal level II while the lower neck nodes included lymph nodal levels III and IV. Clinical data from 227 treatment sessions of 12 head and neck cancer patients were analyzed. The random translational error in inter-and intra-fraction errors of the anterio-posterior (AP) direction might influence the rotational errors of pitch and roll in the upper region. At the same time, the random translational error in the inter-and intra-fraction errors of the AP direction might influence the rotational error of roll in the lower region. We believe that these random translational errors should be considered during treatment. We found variability in random translational errors for different regions in the anatomy of head and neck cancer patients due to rotational shifts. Depending on the location of the primary lesion or the selected nodal treatment targets, these relative positional variations should be considered when setup and rotational shifts are corrected with IGRT systems before treatment.

Strategies to tackle the challenges of external beam radiotherapy for liver tumors

Primary and metastatic liver cancer is an increasingly common and difficult to control disease entity.Radiation offers a non-invasive treatment alternative for these patients who often have few options and a poor prognosis.However,the anatomy and aggressiveness of liver cancer poses significant challenges such as accurate localization at simulation and treatment,management of motion and appropriate selection of dose regimen.This article aims to review the options available and provide information for the practical implementation and/or improvement of liver cancer radiation programs within the context of stereotactic body radiotherapy and image-guided radiotherapy guidelines.Specific patient inclusion and exclusion criteria are presented given the significant toxicity found in certain sub-populations treated with radiation.Indeed,certain sub-populations,such as those with tumor thrombosis or those with larger lesions treated with transarterial chemoembolization,have been shown to have significant improvements in outcome with the addition of radiation and merit special consideration.Implementing a liver radiation programrequires three primary challenges to be addressed:(1) immobilization and motion management;(2) localization;and(3) dose regimen and constraint selection.Strategies to deal with motion include simple internal target volume(ITV) expansions,non-gated ITV reduction strategies,breath hold methods,and surrogate marker methods to enable gating or tracking.Localization of the tumor and organs-at-risk are addressed using contrast infusion techniques to take advantage of different normal liver and cancer vascular anatomy,imaging modalities,and margin management.Finally,a dose response has been demonstrated and dose regimens appear to be converging.A more uniform approach to treatment in terms of technique,dose selection and patient selection will allow us to study liver radiation in larger and,hopefully,multicenter randomized studies.

在肺癌患者中联合应用IGRT和还原型谷胱甘肽的治疗效果

目的:探讨肺癌患者联合应用还原型谷胱甘肽和影像引导调强放射治疗(IGRT)的效果。方法:选取2019年1月-2020年12月本院60例肺癌患者,按照随机数字表法将其分为对照组和研究组,每组30例。对照组应用IGRT,研究组在对照组的基础上应用还原型谷胱甘肽。比较两组的近期临床疗效、炎症介质水平、生活质量评分、毒副反应发生情况。结果:研究组近期总有效率为80.00%高于对照组的46.67%,差异有统计学意义(P<0.05)。治疗前,两组各项生活质量评分比较,差异均无统计学意义(P>0.05);治疗后,两组各项生活质量评分均高于治疗前,且研究组均高于对照组,差异均有统计学意义(P<0.05)。治疗前,两组ACE、IL-6、TGF-β、IL-10、TNF-α水平比较,差异均无统计学意义(P>0.05);治疗后,研究组ACE、IL-10水平分别为(788.59±160.38)、(76.23±15.17)pg/mL,均高于对照组的(581.89±140.18)、(65.06±14.81)pg/mL,IL-6、TGF-β、TNF-α水平分别为(58.36±20.61)、(4067.26±278.24)、(51.62±20.72)pg/mL均低于对照组的(77.44±20.54)、(4987.39±304.17)、(87.05±22.01)pg/mL,差异均有统计学意义(P<0.05)。研究组骨髓抑制、放射性肺炎、放射性食管炎发生率分别为10.00%、3.33%、6.67%,均低于对照组的36.67%、26.67%、26.67%,差异均有统计学意义(P<0.05)。结论:相较于单独应用IGRT,联合应用IGRT+还原型谷胱甘肽治疗效果更佳,可以有效降低毒副反应的发生率以及患者机体中的炎症介质水平,提高治疗效果的同时提高患者的生活质量。

Target migration from re-inflation of adjacent atelectasis during lung stereotactic body radiotherapy

Stereotactic body radiotherapy(SBRT) is a widely accepted option for the treatment of medically inoperable early-stage non-small cell lung cancer(NSCLC).Herein,we highlight the importance of interfraction image guidance during SBRT.We describe a case of earlystage NSCLC associated with segmental atelectasis that translocated 15 mm anteroinferiorly due to re-expansion of the adjacent segmental atelectasis following the first fraction.The case exemplifies the importance of crosssectional image-guided radiotherapy that shows the intended target,as opposed to aligning based on rigid anatomy alone,especially in cases associated with potentially "volatile" anatomic areas.

Adaptive Dose-Compensation Technique for Image-Guided Radiotherapy of Prostate Cancer

Background: For image-guided radiotherapy(IGRT) of prostate cancer, the current standard is online image guidance which can effectively correct setup errors and inter-fraction rigid organ motion. However, planning margins are still necessary for deformation and intra-fraction motion. Objective: This paper aims to investigate an adaptive planning technique incorporating offline dose feedback to manage interfraction motion and residuals from online corrections. Methods:Repeated CT scans from 28 patients were studied. Online IG was simulated by matching center-of-mass of prostate. A seven-beam IMRT plan with zero margins was designed for each patient. Dose distribution at each fraction was evaluated based on actual target and OARs from that fraction. Cumulative dose was calculated using deformable registration and compared to initial plan. If deviation exceeded pre-defined 2% threshold in prostate D99 an adaptive planning technique called dose compensation was invoked, in which cumulative dose was fed back to the planning system and dose deficit was made up through boost radiation in future fractions through IMRT. Results: If 2% under-dose was allowed at the end of course, then 11 patients failed. If the same criteria was assessed at the end of each week(every 5 fractions), then 14 patients failed. The average dose deficit for these 14 patients was4.4%. They improved to 2% after weekly compensation. 10(out of 14) patients passed criterion after weekly dose compensation; 3 failed marginally; 1 failed significantly(10% deficit). A more aggressive compensation frequency(every 3 fractions) could reduce the dose deficit to the acceptable level for this patient. The doses to OARs were not significantly different from online IG only without dose compensation.Conclusion: We demonstrated an offline dose compensation technique in prostate IGRT which can effectively account for residual uncertainties uncorrectable in online IG. Dose compensation allows further margin reduction and critical organs sparing.

CBCT在非小细胞肺癌精确放疗中的应用

目的探讨锥形束CT(CBCT)在非小细胞肺癌(NSCLC)精确放疗中的应用价值。方法应用安装在直线加速器上的CBCT对患者实施治疗前的扫描,根据CBCT图像,测量其运动范围,确定个体化的肉眼肿瘤区(GTV)至计划靶区(PTV)的外放边界。结果通过使用CBCT,考虑肿瘤运动幅度,会造成GTV平均增加30.4 cm3,平均百分数为115.8%;而PTV平均减少40.2 cm3,平均百分数为39.4%。结论利用CBCT图像,可以减小GTV外放边界,减少正常肺组织受照剂量,降低放射性肺损伤指标V20、Dm ea和脊髓最大受量,从而降低正常肺组织和脊髓的放射性损伤发生率。

图像引导下的大分割调强放射治疗骨转移癌临床研究

目的：本研究采用图像引导下的大分割调强放疗技术,治疗癌症骨转移.评价该方案的可行性、安全性及有效率.方法：选取我科2011～2012年收治椎体骨转移患者21名,骨转移灶28处,予肿瘤所在椎体24 Gy/6次,同步予肿瘤加量至36 Gy/6次,限制脊髓D0.1ml小于25 Gy.结果：病灶疗前疼痛评分7.54±0.84分;疗后即刻评分4.00±1.59分,缓解程度47.38％±17.75％;疗后1月评分2.46±2.01分,缓解程度67.54％±24.84％;疗后3月评分2.07±1.92分,缓解程度72.92％±24.09％.治疗后即刻、1月、3月疼痛评分较疗前均有显著差异（P＜0.01）.疗后即刻有效率为57.14％（16/28）,1月有效率为82.14％（23/28）,3月有效率为82.14％（23/28）.l例患者出现Ⅱ度食管副反应,无患者出现神经系统副反应.结论：本研究表明图像引导下的大分割调强放射治疗骨转移癌是安全有效的治疗选择,其长期疗效尚需进一步研究.

头颈肿瘤热塑膜固定配合图像引导放疗的应用

目的:研究图像引导放疗(image guided radiotherapy,IGRT)在头颈部肿瘤放射治疗中的优越性及注意事项。方法:对应用热塑膜固定的头颈部肿瘤患者实施图像引导放疗,一组利用二维模式,一组利用三维模式,分别进行图像配准并加以比较。结果:热塑膜固定头颈部肿瘤患者,摆位误差最大不超过3 mm,图像引导放疗能够确保治疗精度,三维配准方法效果优于二维配准。结论:热塑膜固定的头颈部肿瘤患者,治疗时体位重复性好,配合图像引导大大提高了治疗精度。

不同解剖区域配准方法对鼻咽癌体位误差的影响

目的：在鼻咽癌图像引导调强放疗中,采用4种不同解剖区域进行图像配准,研究分析4种配准方法对鼻咽癌体位误差的影响。方法：应用Varian23IX IGRT系统对17例鼻咽癌患者治疗时进行图像采集,选择颅底（A方法）、颈椎1~3（B方法）、下颌骨（C方法）和整体配准（D方法）等4种方法对CT-CBCT图像进行在线或离线配准,分别分析4种配准方法造成的线性误差（Vrt,Lng,Lat）及旋转误差（Pitch,Roll,Rtn）。结果：由于应用A、B、C等3种配准方法时,所选兴趣区域较小,只分析了各自区域的误差,故误差略大于D方法;且部分区域（如下颌骨）在摆位时会随后仰状态而变化,Lng误差略高于A和C方法;颈椎C1~C3也会随颈部的扭动而变化,旋转误差略高于A和C方法。而D方法所选兴趣区域较大,在线配准时可以对各兴趣区域信息进行整合,寻找较均衡的分析结果,配准结果较好。结论：图像引导放射治疗在鼻咽癌放疗中可以在线纠正摆位误差以提高放疗的精度,整体配准方法配准结果较好。

宫颈癌调强放射治疗研究新进展

放射治疗作为宫颈癌主要治疗方法之一,外照射逐渐用调强适形放疗(IMRT)代替四野箱式照射技术和盆腔前后对穿照射技术,而影像引导放疗开创了精确放疗到精准放疗的时代。内照射开始采用以二维影像为基础的治疗计划代替三维影像为基础的近距离放疗技术,为宫颈癌的放射治疗能更有效地减轻正常组织并发症,提高疗效打下更坚实的基础。目前,IMRT在妇科恶性肿瘤中应用时间相对较短且病例数较少,其安全性及有效性有待于进一步证实。但IMRT与三维高剂量率近距离放疗结合仍是放疗界关注的焦点。

应用锥形束CT评估鼻咽癌调强放疗中的摆位误差

目的探讨锥形束CT(cone-beam computed tomography,CBCT)扫描在调强放射治疗鼻咽癌中降低摆位误差的方法。方法对调强放疗的15例鼻咽癌患者,使用瓦里安23EX直线加速器的机载影像系统(on-bo-rad-imager),采集首次摆位后、摆位误差纠正后及治疗后CBCT图像,并与计划系统的模拟定位CT图像靶中心匹配计划,获得首次摆位后、摆位误差纠正后及治疗后在X(左右)、Y(腹背)、Z(头脚)方向摆位误差进行分析。每位患者每周1次,每次采集3组数据,15例患者治疗5～7w。结果 15例鼻咽癌患者CBCT扫描首次摆位误差数据在X、Y、Z轴分别为(0.675±2.023)、(0.337±1.508)、(0.450±1.749)mm;3个轴向摆位误差绝对值的P95分别为4、3、4mm;3轴向的众数分别为1、1、0mm;其中X轴方向91.3%≤3mm,Y轴方向100%≤3mm,Z轴方向92.5%≤3mm。X、Y、Z轴上极小值分别为-6.00、-3.00、-5.00mm,极大值分别为5.00、3.00、5.00mm。分次治疗间摆位误差差异有统计学意义(P<0.05),分次治疗内摆位误差及X、Y、Z三维方向上的摆位误差差异无统计学意义(P>0.05)。结论采用CBCT技术对鼻咽癌调强放疗进行摆位纠正,可以缩小鼻咽癌放疗过程中分次间的摆位误差,而分次治疗内误差较小,放疗中只需要在首次摆位后治疗前进行CBCT摆位纠正。

鼻咽癌进行图像引导放疗时不同配准方法对体位校正的影响

目的探讨鼻咽癌进行图像引导放疗时不同图像配准方法对体位校正的影响。方法用不同的图像配准方法,对37例鼻咽癌患者在进行图像引导放疗时所获得的47对电子射野影像(EPID)和计划系统生成的数字重建图像(DRR)进行配准分析。方法A:系统自动选择窗宽窗位后进行图像灰度配准。方法B:系统自动选择窗宽窗位后以第一颈椎体前缘中点作为配准点进行自动配准。方法C:在方法A的基础上手动调节窗宽窗位后进行图像灰度配准。方法D:在方法B的基础上手动调节窗宽窗位后,再以第一颈椎体前缘中点作为配准点进行自动配准。在四种不同配准方式下,分别得靶区在X和Y轴方向的摆位误差,再用SPSS13.0统计软件对所得结果进行配对样本t检验。结果方法A与B、B与D相比,靶区在X、Y轴上的摆位误差均有显著差异(P<0.05);方法A与C、C与D相比,靶区在X、Y轴上的摆位误差均无差异(P>0.05)。结论鼻咽癌进行图像引导放疗时,基于图像灰度的摆位误差校正与基于第一颈椎体前缘中点摆位误差校正差异明显。

图像引导放疗中的锥束CT灌注成像方法

为了实现图像引导放疗与功能成像结合的功能图像引导放疗,研究运用图像引导放疗中的锥束CT影像设备进行CT灌注成像的可能性。为了解决锥束CT不能快速成像,进而不能获取准确的体素时间密度曲线(IDC)的问题,提出了一种基于投影数据的体素密度建模方法。首先,运用计算机仿真技术模拟出锥束CT投影数据;然后,对各体素密度值进行数学建模;最后,利用计算机最优化值求解技术,编程实现模型具体参数的计算。实验证明,该模型得到的TDC和DCE-CT实测获得的TDC有很高的吻合度。该模型实现图像引导放疗中的锥束CT灌注成像是可行的。

锥束CT灌注成像方法的可行性研究

为研究图像引导放疗(IGRT)中锥形束CT(CBCT)在低速单周环扫条件下进行灌注成像的可行性,首先利用大白兔动态对比增强断层图像(DCE-CT),通过计算机仿真技术模拟CBCT投影数据;然后建立各体素的时间密度变化模型,利用所获投影数据集,计算出各体素的时间密度曲线(TDC);最后通过去卷积模型求解出组织灌注参数并伪彩色处理。对比仿真获得的投影数据模拟对应体素的时间密度曲线与原始DCE-CT获得的对应体素的TDC,得到的两组TDC平均相关系数达到0.87,呈现出较高的吻合度;实验所得灌注参数及灌注图显示:肿瘤区域与正常组织区域的灌注参数值之间具有统计学意义上的显著差异。实验结果获得了较为准确的组织灌注值,证明图像引导放疗中集成在直线加速器上的CBCT在低速单周环扫条件下进行灌注成像是可行的。

调强放射治疗的最新进展

本文扼要地叙述调强放射治疗的定义、实施方法,逆向计划设计与优化,放射治疗过程的整合,“三精”放射治疗,以及图像引导放射治疗的最新进展。

图像引导适形调强放疗联合比卡鲁胺治疗局部晚期前列腺癌的护理

目的探讨图像引导适形调强放疗联合比卡鲁胺治疗局部晚期前列腺癌的临床护理。方法对12例局部晚期前列腺癌图像引导适形调强放疗联合比卡鲁胺治疗的临床资料进行回顾性分析,采取治疗前心理护理,治疗期间及治疗后采取相应的护理措施。结果本组12例患者中CR 3例,PR 9例,总有效率100%。主要不良反应为放射性直肠炎、放射性膀胱炎,放射性皮炎、骨髓抑制等。结论图像引导适形调强放疗联合比卡鲁胺治疗局部晚期前列腺癌配合有效的护理措施,能有效的减轻治疗的副反应,使患者顺利完成治疗,有利于患者的预后和康复。

放射治疗图像引导现状

介绍了普通放射治疗存在的缺点以及精确放射治疗是放射治疗的必然发展趋势,指出了图像引导技术是精确放射治疗的有力保障,重点论述了常用的5种图像引导技术及其优缺点,医院可根据实际情况选择合适的影像系统,从而提高放射治疗的精度。

ExacTrac图像引导系统在鼻咽癌IMRT中的应用

目的探讨ExacTrac图像引导系统在鼻咽癌调强放射治疗(IMRT)摆位误差全程管控中的应用价值。方法收集2018年3月至2018年8月接受IMRT的30例鼻咽癌患者,采用ExacTrac图像引导系统全程实施图像引导放射治疗(IGRT),分析左右、头脚、腹背3个平移方向及绕此3个方向旋转角度上的6D误差。结果ExacTrac图像引导系统校正前左右、头脚、腹背3个平移方向的误差值分别为(0.11±1.52)mm、(1.45±2.40)mm和(0.67±1.65)mm,绕此3个方向的旋转误差值分别为(-0.16±1.12)°、(0.32±1.59)°、(-0.38±1.12)°。校正后,左右、头脚、腹背3个平移方向的误差值分别为(-0.04±0.46)mm、(0±0.42)mm和(0.03±0.54)mm,绕此3个方向的旋转误差值分别为(-0.03±0.25)°、(0.01±0.23)°和(0.01±0.28)°。校正后在左右、头脚、腹背3个平移方向及绕此3个方向的旋转角度上,≤1 mm或1°的误差概率分别为99%、100%、99%、100%、100%和100%。2 mm或2°的误差概率在左右平移方向为1%,腹背平移方向为1%,其余方向为0。≥3 mm或3°的误差概率均为0。ExacTrac图像引导系统校正前后6D方向摆位误差的差异有统计学意义(P<0.05)。结论鼻咽癌患者在实施每分次IMRT的过程中行IGRT非常必要,应用ExacTrac图像引导系统可以明显校正摆位误差,提高放疗精准性。

螺旋断层放射治疗胰腺癌摆位误差分析

目的分析在兆伏级电子计算机断层扫描(MVCT)图像引导下采用螺旋断层调强放疗技术治疗胰腺癌患者的摆位误差,并计算计划靶区(PTV)的边界(margin)外放。方法行MVCT图像扫描,将扫描获取的MVCT图像与计划CT图像进行配准,记录左右(X)、头脚(Y)、腹背(Z)轴方向和横断面旋转(roll)方向的误差值,并对误差值进行分析计算。结果共行592次MVCT扫描。X、Y、Z和roll方向摆位误差值分别为(-0.5±2.8)mm、(-1.1±6.4)mm、(6.0±4.4)mm和(-0.2±0.7)°。X、Y和Z 3个方向上的平均误差小于5 mm,所占比例分别为97.13%(575/592)、88.01%(521/592)和37.84%(224/592),roll方向旋转误差小于1°,所占比例为93.92%(556/592)。根据公式得出在X、Y和Z 3个方向PTV的边界外放间距值分别为5.2、9.9和7.5 mm。结论对MVCT图像引导下行螺旋断层放射治疗胰腺癌患者的摆位误差数据分析,为提高放射治疗精度及疗效,推荐胰腺癌放疗在X、Y和Z三维方向上CTV到PTV的margin外放值分别为5、10和8 mm。