Longitudinal Study of Irradiation-Induced Brain Microstructural Alterations With S-Index, a Diffusion MRI Biomarker, and MR Spectroscopy

Radiation therapy is widely used for the treatment of brain tumors, but it may lead to severe cognitive impairments. Previous studies have shown that ionizing irradiation induces demyelination, blood-brain barrier alterations, and impaired neurogenesis in animal models. Hence, noninvasive and sensitive biomarkers of irradiation injury are needed to investigate these effects in patients and improve radiation therapy protocols. The heads of 3-month-old male C57BL/6RJ mice (15 control mice and 15 irradiated mice) were exposed to radiation doses of 3 fractions of 5 Gy from a 60Co source with a medical irradiator. A longitudinal study was performed to investigate cranial irradiation-induced (3 fractions of 5 Gy) microstructural tissue alterations using water diffusion magnetic resonance imaging and magnetic resonance spectroscopy in different areas of the mouse brain (cortex, thalamus, striatum, olfactory bulbs [OBs], hippocampus, and subventricular zone [SVZ]). In addition to the quantification of standard non-Gaussian diffusion parameters, apparent diffusion coefficient (ADC0) and kurtosis (K), we evaluated a new composite diffusion metric, designated the S-index (ie, “signature index”). We observed a significant decrease in the S-index in the SVZ from 1 month to 8 months after brain irradiation (P