Dose-dependent white matter damage after brain radiotherapy
Michael Connor, Roshan Karunamuni, Carrie McDonald, Nathan White, Niclas Pettersson, Vitali Moiseenko, Tyler Seibert, Deborah Marshall, Laura Cervino, Hauke Bartsch, Joshua Kuperman, Vyacheslav Murzin, Anitha Krishnan, Nikdokht Farid, Anders Dale, Jona Hattangadi-Gluth, Michael Connor, Roshan Karunamuni, Carrie McDonald, Nathan White, Niclas Pettersson, Vitali Moiseenko, Tyler Seibert, Deborah Marshall, Laura Cervino, Hauke Bartsch, Joshua Kuperman, Vyacheslav Murzin, Anitha Krishnan, Nikdokht Farid, Anders Dale, Jona Hattangadi-Gluth
Abstract
Background and purpose: Brain radiotherapy is limited in part by damage to white matter, contributing to neurocognitive decline. We utilized diffusion tensor imaging (DTI) with multiple b-values (diffusion weightings) to model the dose-dependency and time course of radiation effects on white matter.
Materials and methods: Fifteen patients with high-grade gliomas treated with radiotherapy and chemotherapy underwent MRI with DTI prior to radiotherapy, and after months 1, 4-6, and 9-11. Diffusion tensors were calculated using three weightings (high, standard, and low b-values) and maps of fractional anisotropy (FA), mean diffusivity (MD), axial diffusivity (λ∥), and radial diffusivity (λ⊥) were generated. The region of interest was all white matter.
Results: MD, λ∥, and λ⊥ increased significantly with time and dose, with corresponding decrease in FA. Greater changes were seen at lower b-values, except for FA. Time-dose interactions were highly significant at 4-6months and beyond (p<.001), and the difference in dose response between high and low b-values reached statistical significance at 9-11months for MD, λ∥, and λ⊥ (p<.001, p<.001, p=.005 respectively) as well as at 4-6months for λ∥ (p=.04).
Conclusions: We detected dose-dependent changes across all doses, even <10Gy. Greater changes were observed at low b-values, suggesting prominent extracellular changes possibly due to vascular permeability and neuroinflammation.
Keywords: Diffusion tensor imaging; MRI; Radiation; Radiotherapy; White matter; b-Value.
Copyright © 2016 Elsevier Ireland Ltd. All rights reserved.
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Source: PubMed