R
Rachael D. Seidler
Researcher at University of Florida
Publications - 201
Citations - 13710
Rachael D. Seidler is an academic researcher from University of Florida. The author has contributed to research in topics: Spaceflight & Motor learning. The author has an hindex of 53, co-authored 179 publications receiving 11585 citations. Previous affiliations of Rachael D. Seidler include Arizona State University & Veterans Health Administration.
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Journal ArticleDOI
Dissecting the clock: understanding the mechanisms of timing across tasks and temporal intervals.
TL;DR: Differences across tasks suggests that task demands influence the mechanisms that are engaged for keeping time, and the popular dedicated scalar model of timing accounts for performance across a restricted timescale surrounding the 1-second duration for different tasks.
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Age differences in callosal contributions to cognitive processes.
Brett W. Fling,Melanie Chapekis,Patricia A. Reuter-Lorenz,Joaquin A. Anguera,Jin Bo,Jeanne Langan,Robert C. Welsh,Rachael D. Seidler +7 more
TL;DR: It is found that older adults had significantly smaller callosal area in the anterior and mid-body of the CC than young adults, and older adults with larger size in these callosal areas performed better on assessments of working memory and processing speed.
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Individual predictors of sensorimotor adaptability.
TL;DR: Identification of “slow adapters” prior to spaceflight exposure would allow for more targeted preflight training and/or provision of booster training and adaptation adjuncts during spaceflight.
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Vestibular brain changes within 70 days of head down bed rest.
Peng Yuan,Vincent Koppelmans,Patricia A. Reuter-Lorenz,Yiri E. De Dios,Nichole Gadd,Scott J. Wood,Roy Riascos,Igor S. Kofman,Jacob J. Bloomberg,Ajitkumar P. Mulavara,Rachael D. Seidler +10 more
TL;DR: Higher increase of activation in multiple frontal, parietal, and occipital regions in response to vestibular stimulation during HDBR was associated with greater decrements in balance and mobility from before to after HDBR, suggesting reduced neural efficiency.
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Differential working memory correlates for implicit sequence performance in young and older adults.
TL;DR: It is found that, although OA exhibited an overall reduction in both VSWM and VWM, both OA and YA showed similar performance in the implicit SRT task, and OA may utilize VWM to maintain optimized performance of second-order conditional sequences.