Reduction of Postradiation Therapy Urinary Toxicity Via Intrafractional Megavoltage-Kilovoltage Prostate Location Monitoring.

IF 6.4 1区 医学 Q1 ONCOLOGY
Pengpeng Zhang, Laura Happersett, Sarah Burleson, Jung Hun Oh, Ahmed Elsayegh, Brian Leong, Maria Thor, Antonio Damato, Andrew Jackson, Laura Cervino, Joseph O Deasy, Michael Zelefsky
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引用次数: 0

Abstract

Purpose: We hypothesized that an in-house developed system using megavoltage and kilovoltage image guidance (MKIG) to ensure correct prostate positioning during stereotactic body radiation therapy (SBRT) could potentially avoid unwanted doses to nontarget tissues, leading to reduced toxicities.

Methods and materials: We built a 3-dimensional MKIG platform that accurately tracks prostate implanted fiducials in real time and clinically translated the system to replace a commercial approach, intrafraction motion review (IMR), which only tracks fiducials in the 2-dimensional kilovoltage views. From 2017 to 2019, 150 patients with prostate cancer were treated with SBRT and monitored using MKIG. The motion trace of the fiducials alerts therapists to interrupt and reposition the prostate when displacement exceeds a 1.5 mm threshold. A comparison cohort of 121 patients was treated with the same dose regimen and treatment technique but managed by IMR. Statistics of intrafractional patient shifts and delivery time were collected to evaluate the workflow efficacy. The incidence of grade ≥2 urinary toxicities was analyzed to assess clinical complications. The median follow-up time was 3.7 years (0.2-8.2 years).

Results: MKIG treatments had more treatment shifts (1.09 vs 0.28) and a longer average delivery time per fraction (579 ± 205 seconds vs 357 ± 117 seconds) than IMR treatments. Three-quarters (75%) of shifts resulting from MKIG were ≤3 mm, versus 51% in IMR, indicating that MKIG detected and corrected smaller deviations. The incidence of grade ≥2 urinary toxicity was lower in the MKIG than the IMR cohort: 10.7% versus 19.8% (P = .047). On multivariate analysis of late urinary toxicity, only high (>7) preradiation therapy international prostate symptom score (P < .043) and the use of MKIG were selected (P < .029).

Conclusions: Automated and quantitative MKIG introduced minimal workflow impact and was superior to IMR in localizing the prostate during SBRT, which correlated with a clinically significant reduction in late urinary toxicity. Further clinical testing using randomized trials will be required to validate the impact on outcomes.

通过点内 MV-kV 前列腺位置监测减少放疗后泌尿系统毒性。
目的/目标:我们假设,内部开发的系统使用中压和千伏图像引导(MKIG)来确保 SBRT 期间前列腺的正确定位,有可能避免对非靶组织造成不必要的剂量,从而减少毒性:我们建立了一个可实时准确跟踪前列腺植入靶标的三维 MKIG 平台,并对该系统进行了临床验证,以取代仅在二维 kV 视图中跟踪靶标的商业方法--分段内运动回顾(IMR)。从2017年到2019年,150名前列腺癌患者接受了SBRT治疗,并接受了MKIG的监测。 当前列腺位移超过1.5毫米阈值时,靶标的运动轨迹会提醒治疗师中断治疗并重新定位前列腺。与之进行对比的 121 例患者采用相同的剂量方案和治疗技术,但由 IMR 进行管理。收集了患者点内移位和给药时间的统计数据,以评估工作流程的疗效。分析了≥2级尿毒性的发生率,以评估临床并发症。中位随访时间为3.7年(0.2至8.2年):结果:与IMR治疗相比,MKIG治疗有更多的治疗移位(1.09 vs. 0.28),每个分段的平均输送时间更长(579±205s vs. 357±117s)。四分之三(75%)的 MKIG 移位≤3mm,而 IMR 为 51%,这表明 MKIG 发现并纠正了较小的偏差。MKIG队列中≥2级尿毒性的发生率低于IMR队列:10.7%对19.8%(P=0.047)。在晚期尿毒性的多变量分析中,只有高(>7)RT 前 IPSS(p结论:自动定量 MKIG 对工作流程的影响最小,在 SBRT 期间定位前列腺方面优于 IMR,这与晚期泌尿系统毒性的临床显著降低相关。需要通过随机试验进一步进行临床测试,以验证其对疗效的影响。
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来源期刊
CiteScore
11.00
自引率
7.10%
发文量
2538
审稿时长
6.6 weeks
期刊介绍: International Journal of Radiation Oncology • Biology • Physics (IJROBP), known in the field as the Red Journal, publishes original laboratory and clinical investigations related to radiation oncology, radiation biology, medical physics, and both education and health policy as it relates to the field. This journal has a particular interest in original contributions of the following types: prospective clinical trials, outcomes research, and large database interrogation. In addition, it seeks reports of high-impact innovations in single or combined modality treatment, tumor sensitization, normal tissue protection (including both precision avoidance and pharmacologic means), brachytherapy, particle irradiation, and cancer imaging. Technical advances related to dosimetry and conformal radiation treatment planning are of interest, as are basic science studies investigating tumor physiology and the molecular biology underlying cancer and normal tissue radiation response.
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