Neurochemical levels measured by 1H MR spectroscopy are associated with amyloid‐β and tau deposition in cognitively unimpaired older adults

Abstract

AbstractBackgroundProton MR Spectroscopy (1H MRS) provides non‐invasive measurements of alterations in brain biochemistry associated with neuronal and glial abnormalities in neurodegeneration. 1H MRS with along with automated voxel placement (AVP) improves the precision of 1H MRS metabolite measurements. Our objective was to investigate the association of 1H MRS metabolites obtained by the advanced sLASER single voxel 1H MRS protocol with early tau deposition as measured by AV‐1451 PET and Aβ deposition as measured by 11C‐Pittsburgh compound B (PiB) PET in cognitively unimpaired older adults.MethodCognitively unimpaired adults with median (range) age of 77 (66, 94) from the population‐based Mayo Clinic Study of Aging (MCSA) participated in the single‐voxel 1H MRS study (n=40). All participants had an MRI, 11C‐PiB and AV‐1451 PET examinations. The posterior cingulate cortex (PCC) and the left hippocampus (LHC) were chosen for the 1H MRS voxel locations because of their vulnerability to early AD pathology. Right hippocampus was not studied due to time constraints of the MR examination. 1H MRS was performed at 3T (Siemens) using an optimized sLASER protocol with AVP. Standardized uptake value ratios (SUVR) were calculated for global cortical and regional (PCC, LHC) PiB and AV‐1451. Associations between log transformed SUVRs and the concentration of MRS‐measured metabolites (µmol/g) were assessed using age‐adjusted Pearson correlations.ResultThe median (range) global PiB SUVR was 1.42 (1.20‐2.81) and AV‐1451 SUVR was 1.20 (0.94, 1.46). In the PCC, higher AV‐1451 SUVR was associated with lower N‐acetylaspartate (NAA) (r=‐0.375; p=0.019) and glutamate (r=‐0.354; p=0.027) concentrations. Higher global PIB SUVR was associated with higher myo‐inositol in the LHC (r=0.361; p=0.039).ConclusionLower levels of NAA, a marker of neuronal health, and the neurotransmitter glutamate are associated with local tau pathology in the PCC, suggesting early neuronal dysfunction in relation to tau accumulation. The association of hippocampal myo‐inositol, a putative glial marker, with the global cortical Aβ pathology suggests that myo‐inositol elevation may be an indicator of neuroinflammatory response to Aβ related pathology.