Sara C. LaHue

TL;DR: The study of these microstructural relationships between white matter pathways might aid research on the genetic basis and on the behavioral effects of axonal connectivity, as well as provide a revealing new perspective with which to investigate neurological and psychiatric disorders.

TL;DR: Physical activity and exercise as a means of attenuating inflammation have led to increased interest in related potential therapeutic targets for PD, and these findings may translate into low‐cost, universally available therapies for PD disease modification or prevention.

TL;DR: The COVID-19 management issues outlined in Table 1 bring to light potential barriers to typical nonpharmacologic prevention strategies such as the Assess, Prevent, and Manage Pain, Both Spontaneous Awakening Trials andSpontaneous Breathing Trials, Choice of analgesia and sedation, Delirium: Assessment, prevent, and manage, Early mobility and Exercise, and Family engagement and empowerment bundle.

TL;DR: Analysis of follow-up MEG scans in a subgroup of patients shows that, over time, the abnormally reduced connectivity can improve, suggesting neuroplasticity during the recovery from TBI.

TL;DR: ICA of DTI provides an automated unsupervised decomposition of the normal human brain into multiple separable microstructurally correlated white matter regions, many of which correspond to anatomically familiar classes of white matter pathways.