Martinez A A, Yan D, Lockman D, Brabbins D, Kota K, Sharpe M, Jaffray D A, Vicini F, Wong J
Department of Radiation Oncology, William Beaumont Hospital, Royal Oak, MI 48073, USA.
Int J Radiat Oncol Biol Phys. 2001 Aug 1;50(5):1226-34. doi: 10.1016/s0360-3016(01)01552-8.
Advances in technology allow the creation of complex treatment plans with tightly conforming doses. However, variations in positioning of the organ/patient with respect to treatment beams necessitate the use of an appreciable margin, potentially limiting dose escalation in many patients. To (1) reduce this margin and (2) test the hypothesis that the achievable level of dose escalation is patient dependent, a patient-specific, confidence-limited planning target volume (cl-PTV) was constructed using an adaptive radiotherapy (ART) process for prostate cancer treatment developed in-house. The potential dose escalation achievable with this ART process is quantified for both conformal radiotherapy (CRT) delivery and intensity-modulated radiotherapy (IMRT) delivery.
Patients with organ confined prostate cancer were entered prospectively into an ART process developed in-house. This ART process has been designed to improve accuracy and precision of dose delivery, consequently enhancing dose escalation. In this process, a cl-PTV is constructed for each patient in the second week of treatment based upon on-line portal and CT images acquired during the first week of treatment. The treatment prescription dose, defined as the minimum dose to the cl-PTV, is selected based on predefined dose-volume constraints for rectum/bladder and derived from the pretreatment planning CT image. In addition, the treatment modality (CRT or IMRT) is determined based on the level of dose escalation achievable and the risk of inaccurate targeting. The potential for both dose escalation and the application of IMRT was evaluated by comparing the prescription doses delivered using the ART process, with the cl-PTV, to those in the traditional treatment process, with a conventional generic PTV. In addition, the distributions of potential geometric target underdosing and normal tissue overdosing were also calculated to evaluate the quality of the conventional treatment plans.
One hundred and fifty patients have been treated with the ART process. When compared to the treatment dose delivered with the conventional treatment process (generic PTV), an average 5% (2.5--10%) more dose could be delivered using the ART process with CRT, and 7.5% (2.5--15%) more dose could be delivered with IMRT. Of the 150 patients, 70% were treated to a minimum cl-PTV dose > or = 77.4 Gy (81.3 Gy ICRU isocenter dose). Dosimetric analysis revealed that 81 Gy to the cl-PTV (or 86.7 Gy ICRU) could be prescribed to at least 50% of patients if IMRT was applied using the ART process. In contrast, IMRT did not yield an obvious dose escalation gain if patients were treated using the generic PTV. Our results also demonstrate that the cl-PTV is significantly smaller than the conventional generic PTV for most patients, with a mean volume reduction of 24% (range, 5--43%).
These results support our hypothesis that the achievable level of dose escalation using ART is patient dependent. By using the ART process to develop a cl-PTV, one can (1) optimize the dose level, (2) increase the applicability of IMRT, and (3) improve the quality of dose delivery. The ART process provides the foundation to identify a suitable option (CRT or IMRT) for the delivery of a safe treatment and dose escalation. It is now our standard of practice for prostate cancer treatment.
技术进步使得能够制定出剂量高度适形的复杂治疗计划。然而,器官/患者相对于治疗束的定位变化需要使用可观的边界,这可能限制许多患者的剂量递增。为了(1)减少这一边界,以及(2)检验剂量递增的可实现水平是否因患者而异这一假设,我们使用内部开发的用于前列腺癌治疗的自适应放疗(ART)流程构建了患者特异性的、置信度受限的计划靶区(cl-PTV)。针对适形放疗(CRT)和调强放疗(IMRT),对该ART流程可实现的潜在剂量递增进行了量化。
器官局限性前列腺癌患者被前瞻性纳入内部开发的ART流程。该ART流程旨在提高剂量输送的准确性和精确性,从而增强剂量递增。在此流程中,在治疗的第二周,根据治疗第一周获取的在线射野图像和CT图像为每位患者构建一个cl-PTV。治疗处方剂量定义为cl-PTV的最小剂量,根据直肠/膀胱的预定义剂量体积约束条件选择,并从治疗前计划CT图像得出。此外,根据可实现的剂量递增水平和靶向不准确的风险确定治疗方式(CRT或IMRT)。通过比较使用ART流程及cl-PTV与传统治疗流程及传统通用PTV所给予的处方剂量,评估了剂量递增和IMRT应用的潜力。此外,还计算了潜在几何靶区剂量不足和正常组织剂量过量的分布情况,以评估传统治疗计划的质量。
150例患者接受了ART流程治疗。与传统治疗流程(通用PTV)所给予的治疗剂量相比,使用ART流程进行CRT时平均可多给予5%(2.5% - 10%)的剂量,使用IMRT时可多给予7.5%(2.5% - 15%)的剂量。在这150例患者中,70%接受的cl-PTV最小剂量≥77.4 Gy(ICRU等中心剂量81.3 Gy)。剂量学分析表明,如果使用ART流程应用IMRT,至少50%的患者可给予cl-PTV 81 Gy(或ICRU 86.7 Gy)的剂量。相比之下,如果使用通用PTV治疗患者,IMRT并未带来明显的剂量递增获益。我们的结果还表明,对于大多数患者,cl-PTV明显小于传统通用PTV,平均体积减少24%(范围为5% - 43%)。
这些结果支持了我们的假设,即使用ART可实现的剂量递增水平因患者而异。通过使用ART流程来制定cl-PTV,能够(1)优化剂量水平,(2)提高IMRT的适用性,以及(3)改善剂量输送质量。ART流程为确定安全治疗和剂量递增的合适输送方式(CRT或IMRT)提供了基础。它现已成为我们前列腺癌治疗的标准操作方法。
