低分割外照射单HDR铱192 Boost治疗中、高危前列腺癌患者初期急性和晚期副作用的研究

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引用次数: 0

摘要

目的:剂量递增已被证明可以改善前列腺癌治疗的生化结果。精确放疗的使用,无论是使用IMRT,质子还是其他适当的手段,都已被用于减少副作用,同时进行剂量递增。然而,众所周知,确保精确放射的最佳方法是使用近距离放射治疗。在前列腺癌中,HDR近距离放疗利用了低α/β比值。我们试图就中高风险前列腺癌患者的急性/晚期毒性方面评估中度低分割外照射与单次HDR增强的组合。方法:69例患者,年龄49 ~ 83岁(医学= 69岁),采用中等低分割外照射和单次HDR增强相结合的治疗方法。外部光束照射由17个部分组成,每个部分250 cGy,使用BED评估最接近我们之前更传统的外部光束照射(23个部分/200 cGy /每个部分)。所有患者均接受3D适形或IMRT治疗;在完成外束照射的2周内,放置了一个1500 cGy的铱192植入物。我们的剂量限制先前已经公布,但我们的既定目标是将98%的剂量提供给超声确定的前列腺治疗体积。29例患者在泌尿外科治疗小组的决定下接受了ADT治疗。所有患者均保持随访,随访时间为11至53个月(中位37个月)。结果:采用RTOG/EORTC标准评价急性/晚期毒性。总体而言,36/69(52%)发生急性胃肠道毒性。49%的患者发展为I/II型,2例发展为III型。14.5%报告晚期胃肠道毒性,均为GR I / II。不出所料,98%报告急性谷氨酰胺毒性。其中67/69为1 / 2级,1例报告为3级。然而,6个月后,只有8例(11.5%)存在持续的GR I/II问题。另一名患者继续发展为GR III毒性。结论:虽然需要进一步的随访才能对这种联合治疗的肿瘤有效性做出明确的声明,但早期的毒性特征是非常令人鼓舞的。我们继续为选择的中/高风险前列腺癌患者提供这种治疗方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hypofractionated External Beam Irradiation with Single HDR Iridium 192 Boost in the Treatment of intermediate and High Risk Prostate Cancer Patients Initial acute and late side effects
Purpose: Dose escalation has been shown to improve biochemical outcome in the treatment of prostate cancer. The use of precision radiotherapy whether using IMRT, proton’s or other appropriate means have been utilized in an effort to reduce side effects while engaging in dose escalation. However, it is well known that best way to ensure precision delivery of radiation is with the use of brachytherapy. In prostate cancer the use of HDR brachytherapy exploits the low α/β ratios. We sought to evaluate our combination of moderate hypofractionated external beam irradiation with a single HDR boost in terms of acute/late toxicity in patients with intermediate and high risk prostate cancer. Method: 69 patients whose age range from 49 to 83 (med = 69 y.o.) years old were offered treatment utilizing the combination of moderate hypofractionated external beam irradiation and single HDR boost. The external beam irradiation consists of 17 fractions of 250 cGy per fraction, which using BED evaluation most closely approximated our previous more conventionally delivered external beam (23 fractions/200 cGy per fraction) irradiation in this setting. All patients were treated with either 3D conformal or IMRT; within 2 weeks of completion of external beam irradiation a single 1500 cGy iridium 192 implant was delivered. Our dose constraints have been previously published but our stated goal was to delivered 98% of the dose to the prostate treatment volume identified by ultrasound. 29 patients received ADT at the discretion of the treating Urology team. Follow up has been maintained on all patients and has ranged from 11 to 53 months (median 37 months). Results: Assessment of acute / late toxicity was assessed using the RTOG/EORTC criteria. Overall 36/69 (52%) developed ACUTE GI toxicity. 49% developed Gr I/II while two patients developed Gr III. 14.5% reported late GI toxicity, all were GR I / II. Without surprise 98% reported acute GU toxicity. Of these 67/69 had Gr I/II with a single patient reporting GR III. However, after 6 months only 8 (11.5%) had persistent GR I/II issues. An additional patient went on to develop GR III toxicity. Conclusion: While further follow up will be required before definitive statements can be made regarding the oncologic effectiveness of this treatment combination, the early toxicity profiles are very encouraging. We continue to offer this treatment regimen for select intermediate/high risk prostate cancer patients.
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