Abstract
Long-term survivors of brain irradiation can suffer from irreversible injury and cognitive impairment. T1-weighted and diffusion tensor magnetic resonance imaging are used to evaluate brain volumes and white matter (WM) microstructure in neurodevelopmental and neurodegenerative conditions. The goal of this study was to evaluate the long-term effects of single-dose total-body irradiation (TBI) or TBI with 5% partial-body sparing on brain volumetrics and WM integrity in macaques. We utilized MRI scans from a cohort of male rhesus macaques (age range: 3.6-22.8 years), to compare global and regional brain volumes and WM diffusion in survivors of TBI (T1w: n=137, DTI: n=121, dose range: 3.5-10 Gy) against unirradiated controls (T1w: n=48, DTI: n=38). In all ROIs, radiation affected the age-related changes in fractional anisotropy (FA); in general, FA increased across age in both groups, but to a lesser extent in the irradiated group (interaction p-values <0.01). Depending on the ROI, mean diffusivity (MD) decreased or remained the same across age in unirradiated animals, while it increased or did not change in irradiated animals. The increases in MD were driven by changes in radial diffusivity (RD) which followed similar trends across age. Axial diffusivity (AD) did not differ by irradiation status. Age-related changes in relative volumes in controls reflected normal trends in humans with increasing WM and decreasing gray matter (GM) until middle age. Cerebrospinal fluid (CSF) volume did not differ across age in controls. WM volume was lower and CSF volume was higher in young, irradiated macaques. WM volume was similar between groups and CSF volume reduced in older irradiated macaques. GM volume was unaffected by radiation. TBI results in delayed WM expansion and long-term disruption of WM integrity. Diffusion changes suggest that myelin injury in WM is a hallmark of late-delayed radiation induced brain injury.
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More From: International Journal of Radiation Oncology*Biology*Physics
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