Saturday, July 13, 202410:30 AM - 11:30 AMPPP01 Presentation Time: 10:30 AM

IF 1.7 4区医学 Q4 ONCOLOGY

Brachytherapy Pub Date : 2024-10-25 DOI:10.1016/j.brachy.2024.08.093

Frédéric Lacroix Ph.D , Eric Poulin Ph.D. , Cédric Bélanger Ph.D. , Sylviane Aubin M.Sc. , Eric Vigneault MD , André-Guy Martin M.D. , François Bachand M.D. , Luc Beaulieu Ph.D. , William Foster M.D.

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引用次数: 0

Abstract

Purpose

gMCO generated plans for HDR prostate brachytherapy have been shown to be superior to standard reference clinical plans in a blinded pairwise comparison[1]. The purpose of this work, a first-in-man trial, was to compare gMCO and reference plans in terms of planning time and plan quality for prostate HDR brachytherapy 15Gy boosts in a randomized clinical trial.

Materials and Methods

The brachytherapy procedure was as follows: 1) Patient walk-in/installation/anaesthesia 2) Positioning/Catheter implantation under transrectal ultrasound (US) guidance 3) 3D US scan 4) Contouring/catheter reconstruction on Oncentra Prostate (Elekta, Veenendaal, Netherlands) 5) Planning 6) Treatment. Planning (step 5) was performed, after randomization, using either IPSA (Oncentra Prostate, Veenendaal, Netherlands) or gMCO (in-house platform). For gMCO planning, the contours and reconstructed catheters were exported to gMCO at step 4) and the resulting plan was imported on OCP at step 6). The planning times on IPSA or gMCO were recorded. Patients previously had a planning MR in order to identify the gross tumor volume (GTV, PIRADS 3 and above)and, if present, received a boost of 125% of the prescription dose. At the time of writing, 55 (of 60) patients have been accrued and treated on this trial. Of those, only 10 patients had no GTV. Dosimetric parameters (Prostate V100, V150, V200, GTV D90, Urethra D10, Rectum and Bladder V75 and D1cc) of gMCO and IPSA plans were compared (Student's T test) to determine if plan quality and planning times were statistically different.

Results

Figure 1 shows a) a boxplot of the the planning times (minutes), b) a boxplot of the GTV D90 coverage (Gy) and c) a histogram of the proportion of GTVs with more than 19, 19.5 and 20 Gy D90 coverage for gMCO and IPSA for the 55 accrued patients (29 gMCO and 26 IPSA). Figure 1 a) shows that the median planning time for clinical cases is roughly halved (p=0.0002) for gMCO (5.0 min) compared to IPSA (10.0 min) and b) shows a trend towards higher GTV D90s for gMCO planning compared to IPSA (p=0.26). The median GTV volume and standard deviation was 3.5 cc (4.2 cc std) for gMCO and 2.8 cc (2.3 cc std) for IPSA patients (p=0.21). Additionally, we found no learning curve effect in the planning using gMCO. No statistically significant differences were found between dosimetric parameters for the prostate V100, V150, D90, Bladder V75, Rectum V75 and Urethra D10. The prostate V200 was statistically higher for gMCO (p=0.048), possibly because of higher GTV D90 to the (19.8 Gy) compared to IPSA (19.3 Gy). Figure 1c) shows that a superior GTV D90 coverage can be obtained more consistently for gMCO as compared to IPSA at 19, 19.5 and 20 Gy.

Conclusion

This work presents a first-in-man trial of GPU based multicriteria optimization in prostate HDR brachytherapy. The planning time was halved when using gMCO as compared to IPSA. Better GTV D90s were achieved without compromising the OARs. No learning curve effect was present in gMCO planning. [1] C. Bélanger et al., “Inter-observer evaluation of a GPU-based multicriteria optimization algorithm combined with plan navigation tools for HDR brachytherapy”, Brachytherapy 21 (2022), 551-560.

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2024 年 7 月 13 日（星期六）上午 10:30 - 11:30PP01 演讲时间：上午 10:30

目的 gMCO 生成的 HDR 前列腺近距离治疗计划在盲法配对比较中显示优于标准参考临床计划[1]。本研究是一项首次临床试验，目的是在随机临床试验中比较 gMCO 和参考计划在前列腺 HDR 近距离 15Gy 增量治疗中的计划时间和计划质量：1) 患者入院/安装/麻醉 2)在经直肠超声（US）引导下定位/植入导管 3) 3D US 扫描 4) 在 Oncentra Prostate（Elekta，Veenendaal，荷兰）上进行轮廓/导管重建 5) 计划 6) 治疗。规划（第 5 步）在随机分配后使用 IPSA（Oncentra Prostate，荷兰维嫩达尔）或 gMCO（内部平台）进行。对于 gMCO 规划，在步骤 4) 将轮廓和重建导管导出到 gMCO，在步骤 6) 将生成的规划导入 OCP。记录了 IPSA 或 gMCO 的规划时间。患者之前曾接受过一次 MR 计划，以确定肿瘤总体积（GTV，PIRADS 3 及以上），如果存在，则接受处方剂量 125% 的增量。在撰写本报告时，已有 55 名（共 60 名）患者接受了该试验的治疗。其中，只有 10 名患者没有 GTV。对 gMCO 和 IPSA 计划的剂量参数（前列腺 V100、V150、V200、GTV D90、尿道 D10、直肠和膀胱 V75 和 D1cc）进行了比较（学生 T 检验），以确定计划质量和计划时间是否存在统计学差异。结果图 1 显示了 a) 规划时间（分钟）的方框图；b) GTV D90 覆盖率（Gy）的方框图；c) gMCO 和 IPSA 的 GTV D90 覆盖率超过 19、19.5 和 20 Gy 的比例直方图，共 55 例患者（29 例 gMCO 和 26 例 IPSA）。图 1 a) 显示，与 IPSA（10.0 分钟）相比，gMCO（5.0 分钟）的临床病例中位规划时间大约缩短了一半（p=0.0002）；b) 显示，与 IPSA 相比，gMCO 规划的 GTV D90 呈上升趋势（p=0.26）。gMCO 患者的中位 GTV 体积和标准偏差为 3.5 毫升（标准偏差为 4.2 毫升），IPSA 患者的中位 GTV 体积和标准偏差为 2.8 毫升（标准偏差为 2.3 毫升）（P=0.21）。此外，我们在使用 gMCO 进行规划时没有发现学习曲线效应。前列腺 V100、V150、D90、膀胱 V75、直肠 V75 和尿道 D10 的剂量学参数之间没有统计学意义上的差异。前列腺 V200 在统计学上高于 gMCO（p=0.048），这可能是因为 GTV D90（19.8 Gy）高于 IPSA（19.3 Gy）。图 1c) 显示，在 19、19.5 和 20 Gy 时，与 IPSA 相比，gMCO 可以更稳定地获得更高的 GTV D90 覆盖率。与 IPSA 相比，使用 gMCO 的规划时间缩短了一半。在不影响 OARs 的情况下，GTV D90s 得到了改善。gMCO 计划没有学习曲线效应。[1] C. Bélanger 等人，"基于 GPU 的多标准优化算法与 HDR 近距离放射治疗计划导航工具相结合的观察者间评估"，近距离放射治疗 21 (2022)，551-560。

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来源期刊

Brachytherapy 医学-核医学

CiteScore

3.40

自引率

21.10%

发文量

119

审稿时长

9.1 weeks

期刊介绍： Brachytherapy is an international and multidisciplinary journal that publishes original peer-reviewed articles and selected reviews on the techniques and clinical applications of interstitial and intracavitary radiation in the management of cancers. Laboratory and experimental research relevant to clinical practice is also included. Related disciplines include medical physics, medical oncology, and radiation oncology and radiology. Brachytherapy publishes technical advances, original articles, reviews, and point/counterpoint on controversial issues. Original articles that address any aspect of brachytherapy are invited. Letters to the Editor-in-Chief are encouraged.