Objective: To evaluate the efficiency of high-energy photons for mitigating alopecia due to whole-brain irradiation (WBRT). Methods: Planning CT data from 10 patients who received WBRT were collected. We prepared 4 WBRT plans that used 6 or 15 MV photon beams, with or without use of a field-in-field (FiF) technique, and compared outcomes using a treatment planning system. The primary outcome was dose parameters to the scalp, including the mean dose, maximum dose, and dose received to 50% scalp (D50%). Secondary outcomes were minimum dose to the brain surface. Results: Using FiF, the mean doses were 24.4–26.0 and 22.4–24.1 Gy, and the maximum doses were 30.5–32.1 and 28.5–30.8 Gy for 6 and 15 MV photon beams, respectively. Without FiF, the mean doses were 24.6–26.9 and 22.6–24.5 Gy, and the maximum doses were 30.8–34.6 and 28.6–32.4 Gy for 6 and 15 MV photon beams. The 15 MV plan resulted in a lower scalp dose for each dose parameter (p < 0.001). Using FiF, the minimum doses to the brain surface for the 6 and 15 MV plans were 28.9 ± 0.440 and 29.0 ± 0.557 Gy, respectively (p = 0.70). Without FiF, the minimum doses to the brain surface for the 6 and 15 MV plans were 28.9 ± 0.456 and 29.0 ± 0.529, respectively (p = 0.66). Conclusion: Compared with the 6 MV plan, the 15 MV plan achieved a lower scalp dose without impairing the brain surface dose. Advances in knowledge: High-energy photon WBRT may mitigate alopecia of patients who receiving WBRT.
Associations between brain morphology and motor performance in chronic neck pain: A whole‐brain surface‐based morphometry approach