| Abstrakt: |
Background: The earliest effects of Alzheimer's disease pathology on medial temporal lobe (MTL) gray matter microstructure and white matter connectivity are still unknown. Here, we applied ultra‐high‐resolution diffusion MRI to characterize microstructural integrity and structural connectivity of the MTL, and tested associations with Alzheimer's pathology and memory performance in cognitively normal older adults. Method: 83 participants (M = 71.7yrs, 66% female) received structural and ultra‐high‐resolution diffusion MRI (0.67×0.67×3mm). Subsamples received [18F]‐florbetapir (FBP) to measure Aβ (n = 77; global summary SUVR), [18F]‐MK6240 to measure tau (n = 23; entorhinal SUVR), and performed an object mnemonic discrimination task (n = 74). Structural MRI was processed with ASHS to obtain MTL ROIs (Fig1). Diffusion MRI was processed with FSL DTIfit to calculate mean diffusivity (MD), an index of cellular integrity. Tractography was performed with DSI Studio. ROI‐to‐ROI streamlines were calculated (Fig3A) and used for structural connectivity graph analyses of the MTL network. Analyses controlled for age and sex, with scan interval and education in relevant models. Result: Entorhinal MK6240 SUVR was associated with increased MD in transentorhinal cortex (BA35; r = 0.72, p<0.001), entorhinal cortex (EC; r = 0.61, p = 0.004), and dentate gyrus (DG; r = 0.46, p = 0.04; Fig2A), while global FBP SUVR was associated with higher MD in EC (r = 0.25, p = 0.03). Worse mnemonic discrimination performance was associated with increased MD in DG (r = ‐0.29, p = 0.01), with trends in EC (r = ‐0.23, p = 0.06) and CA3 (r = ‐0.20, p = 0.09; Fig2B). The number of streamlines between EC and DG was not significantly associated with entorhinal MK6240 SUVR (r = ‐0.32, p = 0.17), FBP SUVR, or mnemonic discrimination (ps>0.37). Lower global efficiency of the MTL network was associated with increased entorhinal MK6240 SUVR (r = ‐0.50, p = 0.025) yet better mnemonic discrimination performance (r = ‐0.28, p = 0.02; Fig3B). Conclusion: Entorhinal tau pathology and memory performance are closely related to microstructural integrity and structural connectivity of the MTL, suggesting tau‐related MTL neurodegeneration may drive early memory decline. [ABSTRACT FROM AUTHOR] |
