Brain oxygen extraction and neural tissue susceptibility are associated with cognitive impairment in older individuals
Gloria Chiang, Junghun Cho, Jonathan P. Dyke, Hang Zhang, Qihao Zhang, Michael Tokov, Thanh D. Nguyen, İlhami Kovanlıkaya, Michael Amoashiy, Mony J. de Leon, Yi Wang
Abstract
Abstract Background and Purpose We investigated the effects of aging, white matter hyperintensities (WMH), and cognitive impairment on brain iron levels and cerebral oxygen metabolism, known to be altered in Alzheimer's disease (AD), using quantitative susceptibility mapping and MR‐based cerebral oxygen extraction fraction (OEF). Methods In 100 individuals over the age of 50 (68/32 cognitively impaired/intact), OEF and neural tissue susceptibility (χ n ) were computed retrospectively from MRI multi‐echo gradient echo data, obtained on a 3 Tesla MRI scanner. The effects of age and WMH on OEF and χ n were assessed within groups, and OEF and χ n were assessed between groups, using multivariate regression analyses. Results Cognitively impaired subjects were found to have 19% higher OEF and 34% higher χ n than cognitively intact subjects in the cortical gray matter and several frontal, temporal, and parietal regions ( p < .05). Increased WMH burden was significantly associated with decreased OEF in the cognitively impaired, but not in the cognitively intact. Older age had a stronger association with decreased OEF in the cognitively intact group. Both older age and increased WMH burden were significantly associated with increased χ n in temporoparietal regions in the cognitively impaired. Conclusions Higher brain OEF and χ n in cognitively impaired older individuals may reflect altered oxygen metabolism and iron in areas with underlying AD pathology. Both age and WMH have associations with OEF and χ n but are modified by the presence of cognitive impairment.