PURPOSE This study investigates whether focal boosting of the macroscopic visible tumor with external beam radiotherapy increases biochemical disease-free survival (bDFS) in patients with localized prostate cancer. PATIENTS AND METHODS In the phase III, multicenter, randomized controlled Focal Lesion Ablative Microboost in Prostate Cancer trial, 571 patients with intermediate- and high-risk prostate cancer were enrolled between 2009 and 2015. Patients assigned to standard treatment received 77 Gy (fractions of 2.2 Gy) to the entire prostate. The focal boost arm received an additional simultaneous integrated focal boost up to 95 Gy (fractions up to 2.7 Gy) to the intraprostatic lesion visible on multiparametric magnetic resonance imaging. Organ at risk constraints were prioritized over the focal boost dose. The primary end point was 5-year bDFS. Secondary end points were disease-free survival (DFS), distant metastases-free survival, prostate cancer-specific survival, overall survival, toxicity, and health-related quality of life. RESULTS Median follow-up was 72 months. Biochemical DFS was significantly higher in the focal boost compared with the standard arm (hazard ratio 0.45, 95% CI, 0.28 to 0.71, P < .001). At 5-year follow-up bDFS was 92% and 85%, respectively. We did not observe differences in prostate cancer-specific survival ( P = .49) and overall survival ( P = .50). The cumulative incidence of late genitourinary and GI toxicity grade ≥ 2 was 23% and 12% in the standard arm versus 28% and 13% in the focal boost arm, respectively. Both for late toxicity as health-related quality of life, differences were small and not statistically significant. CONCLUSION The addition of a focal boost to the intraprostatic lesion improved bDFS for patients with localized intermediate- and high-risk prostate cancer without impacting toxicity and quality of life. The Focal Lesion Ablative Microboost in Prostate Cancer study shows that a high focal boost strategy to improve tumor control while respecting organ at risk dose constraints is effective and safe.
Background and purpose: Local recurrences after radiotherapy for prostate cancer (PCa) often originate at the location of the macroscopic tumour(s). Since PCa cells are known to be sensitive to high fraction doses, hypofractionated whole gland stereotactic body radiotherapy (SBRT) in conjunction with a simultaneous ablative microboost to the macroscopic tumour(s) within the prostate could be a way to reduce the risk of local failure. We investigated the safety of this treatment strategy.
Materials and methods:Patients with intermediate or high risk PCa were enrolled in a prospective phase II trial, called hypo-FLAME. All patients were treated with extreme hypofractionated doses of 35 Gy in 5 weekly fractions to the whole prostate gland with an integrated boost up to 50 Gy to the multiparametric (mp) MRI-defined tumour(s). Treatment related toxicity was measured using the CTCAE v4.0. The primary endpoint of the trial was treatment related acute toxicity.Results: Between April 2016 and December 2018, 100 men were treated in 4 academic centres. All patients were followed up for a minimum of 6 months. The median mean dose delivered to the visible tumour nodule(s) on mpMRI was 44.7 Gy in this trial. No grade ≥3 acute genitourinary (GU) or gastrointestinal (GI) toxicity was observed. Furthermore, 90 days after start of treatment, the cumulative acute grade 2 GU and GI toxicity rates were 34.0% and 5.0%, respectively.
Conclusion:Simultaneous focal boosting to the macroscopic tumour(s) in addition to whole gland prostate SBRT is associated with acceptable acute GU and GI toxicity.
Despite the fact that all recommended precautions were taken to minimize the damage to the ICDs during radiotherapy and the calculated dose to the ICDs was <1 Gy, in 29% of the treatments a malfunction occurred. We observed a possible correlation between the beam energy and the malfunctions. This correlation may be due to an interaction between neutrons produced in the head of the linear accelerator at beam energies ≥10 MeV, and boron-10 which is present in the integrated circuit.
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