Neuroprotective Effects of Ultra-High Dose Rate FLASH Bragg Peak Proton Irradiation

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Abstract

Purpose: To investigate brain tissue response to ultra-high dose rate (uHDR, FLASH) and standard dose rate (SDR) proton irradiations in the Bragg peak region. Methods and Materials: Active scanning uHDR delivery was established for proton beams for investigation of dose rate effects between clinical SDR and uHDR at ∼10 Gy in the Bragg peak region (dose-averaged linear energy transfer [LETD] ranging from 4.5 to 10.2 keV µm-1 ). Radiation- induced injury of neuronal tissue was assessed by studying the DNA double strand break repair kinetics surrogated by nuclear γH2AX staining (radiation induced foci [RIF]), microvascular density and structural integrity (MVD, CD31+ endothelium), and inflammatory microenvironmental response (CD68+ microglia/macrophages and high mobility group box protein 1[HMGB]) in healthy C57BL/6 mouse brains. Results: Averaged dose rates achieved were 0.17 Gy/s (SDR) and 120 Gy/s (uHDR). The fraction of RIF-positive cells increased after SDR ∼10-fold, whereas a significantly lower fraction of RIF-positive cells was found after uHDR versus SDR (∼2 fold, P

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Dokic, I., Meister, S., Bojcevski, J., Tessonnier, T., Walsh, D., Knoll, M., … Abdollahi, A. (2022). Neuroprotective Effects of Ultra-High Dose Rate FLASH Bragg Peak Proton Irradiation. International Journal of Radiation Oncology Biology Physics, 113(3), 614–623. https://doi.org/10.1016/j.ijrobp.2022.02.020

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