Viscoelasticity measured with magnetic resonance elastography appears to be sensitive to microstructural properties relevant to specific memory function, even in healthy younger adults, and is a promising tool for future studies of hippocampal structure in aging and related diseases.
Dec 1, 2020 · Magnetic resonance elastography (MRE) is an emerging tool that provides sensitive estimates of microstructure vis-à-vis tissue mechanical ...
Magnetic resonance elastography of human hippocampal subfields: CA3-dentate gyrus viscoelasticity predicts relational memory accuracy. Ana M. Daugherty ...
Moreover, damping ratio of the CA3-DG—potentially reflective of number of cells and their connections—predicted relational memory accuracy and alone replicated ...
Viscoelasticity measured with magnetic resonance elastography appears to be sensitive to microstructural properties relevant to specific memory function, ...
Viscoelasticity measured with magnetic resonance elastography appears to be sensitive to microstructural properties relevant to specific memory function, even ...
Magnetic Resonance Elastography of Human Hippocampal Subfields: CA3-Dentate Gyrus Viscoelasticity Predicts Relational Memory Accuracy. J Cogn Neurosci. 2020 ...
Oct 19, 2022 · (2020) Magnetic resonance elastography of human hippocampal subfields: CA3–dentate gyrus viscoelasticity predicts relational memory accuracy.
May 20, 2024 · Magnetic Resonance Elastography of Human Hippocampal Subfields: CA3-Dentate Gyrus Viscoelasticity Predicts Relational Memory Accuracy. J Cogn ...
Magnetic Resonance Elastography of Human Hippocampal Subfields: CA3-Dentate Gyrus Viscoelasticity Predicts Relational Memory Accuracy. Journal of Cognitive ...