Purpose: To determine if increasing the biologically equivalent dose (BED) via various radiation fractionation regimens is correlated with clinical outcomes or toxicities for prostate cancer.
Methods and materials: We performed a meta-analysis that included 12,756 prostate cancer patients from 55 studies published from 2003 to 2013 who were treated with non-dose-escalated conventionally fractionated external beam radiation therapy (non-DE-CFRT), DE-CFRT, hypofractionated RT, and high dose rate brachytherapy (HDR-BT; either mono or boost) with ⩾5-year actuarial follow-up. BEDs were calculated based on the following formula: (nd[1+d/(α/β)]), where n is the number of fractions, and d is dose per fraction; assuming an α/β of 1.5 for prostate cancer and 3.0 for late toxicities. Mixed effects meta-regression models were used to estimate weighted linear relationships between BED and the observed percentages of patients experiencing late toxicities or 5-year freedom from biochemical failure (FFBF).
Results: Increases in 10 Gy increments in BED (at α/β of 1.5) from 140 to 200 Gy were associated with 5-unit improvements in percent FFBF. Dose escalation of BED above 200 Gy was not correlated with FFBF. Increasing BED (at α/β of 3.0) from 98 to 133 Gy was associated with increased gastrointestinal toxicity. Dose escalation above 133 Gy was not correlated with toxicity.
Conclusions: An increase in the BED to 200 Gy (at α/β of 1.5) was associated with increased disease control. Doses above 200 Gy did not result in additional clinical benefit.
Keywords: Prostate cancer; Radiation oncology; Radiotherapy dose fractionation; Technology.
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