Abstract
PurposeBoosting dominant intra-prostatic lesions (DILs) has the potential to increase the therapeutic ratio in prostate cancer radiotherapy. In this study, employing 5-fraction stereotactic ablative radiotherapy (SABR) volumetric modulated arc therapy (VMAT) to deliver 40 Gy to the prostate clinical target volume (CTV) while boosting the DIL up to 50 Gy was evaluated for patients before and after rectal spacer insertion.Materials and methods24 Computed Tomography (CT) scans of 12 prostate cancer patients with unfavourable intermediate or high risk prostate cancer were employed in this study. At least two treatment plans were generated for each patient to compare pre- and post-spacer insertion plans. Plans were evaluated for target coverage, organs-at-risk doses, and the achievable boost dose level.ResultsThe CTV coverage was significantly better in plans with a spacer, V40Gy 98.4% versus 97.0% (p = 0.012). Using spacers significantly reduced rectal dose in all 12 patients in this study. It was possible to boost DIL to 50 Gy to without violating dose constraints in 6 of 12 patients and to 47.5 Gy in 3 patients post-spacer insertion. For 3 patients (25%) it was not possible to boost DIL above 45 Gy even with a spacer in situ. Without a spacer, for 6 patient (50%) clinically acceptable plan were only achieved when the DIL dose was lowered to 45 Gy. In five of these 6 patients the dose limiting structure was the urethra (urethra planning risk volume V45Gy [cc] ≤ 0.1 cc constraint).ConclusionsClinically acceptable plans for 5 fraction SABR, 40 Gy to the prostate CTV, with a SIB to DIL (45–50 Gy) were achieved. The boost dose achieved was DIL location dependent and primarily affected by DIL’s proximity to the urethra. Compared to plans before spacer insertion, higher DIL dose were achieved with spacer in situ for 25% of the patients. Moreover, significant reduction in rectal dose and better target coverage were also achieved for all patients with spacers in situ.
Highlights
Hypo-fractionation is an attractive option in the management of prostate cancer because it is costeffective and convenient for patients, and due to the potential therapeutic benefits
Compared to plans before spacer insertion, higher Dominant intra-prostatic lesions (DIL) dose were achieved with spacer in situ for 25% of the patients
For all the patients in this study, spacer insertion significantly reduced rectum dose metrics and Normal tissue complication probability (NTCP) values compared with plans generated without rectal spacers as shown in Table 1, Fig. 1, and Additional file 1: Figures SF1 and SF2
Summary
Hypo-fractionation is an attractive option in the management of prostate cancer because it is costeffective and convenient for patients, and due to the potential therapeutic benefits. Osman et al Radiation Oncology (2022) 17:38 evidence suggesting that prostate cancers are highly sensitive to dose per fraction rather than the total dose [1,2,3]. Local recurrences post-radiotherapy mostly originate from highly radio-resistant sub-volumes within the primary treated volume (dominant intra-prostatic lesions (DILs)) [7,8,9]. Boosting DILs to significantly higher doses has the potential to maximize tumour control [10]; this is constrained by the increased risk of toxicity. The proximity of the prostate to the rectum and the bladder makes DIL boosting more challenging, as both are radiosensitive organs that are susceptible to movement and/or deformations
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