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Site-Specific Effects of Online rTMS during a Working Memory Task in Healthy Older Adults.
Abstract
The process of manipulating information within working memory is central to many cognitive
functions, but also declines rapidly in old age. Improving this process could markedly
enhance the health-span in older adults. The current pre-registered, randomized and
placebo-controlled study tested the potential of online repetitive transcranial magnetic
stimulation (rTMS) applied at 5 Hz over the left lateral parietal cortex to enhance
working memory manipulation in healthy elderly adults. rTMS was applied, while participants
performed a delayed-response alphabetization task with two individually titrated levels
of difficulty. Coil placement and stimulation amplitude were calculated from fMRI
activation maps combined with electric field modeling on an individual-subject basis
in order to standardize dosing at the targeted cortical location. Contrary to the
a priori hypothesis, active rTMS significantly decreased accuracy relative to sham,
and only in the hardest difficulty level. When compared to the results from our previous
study, in which rTMS was applied over the left prefrontal cortex, we found equivalent
effect sizes but opposite directionality suggesting a site-specific effect of rTMS.
These results demonstrate engagement of cortical working memory processing using a
novel TMS targeting approach, while also providing prescriptions for future studies
seeking to enhance memory through rTMS.
Type
Journal articlePermalink
https://hdl.handle.net/10161/20719Published Version (Please cite this version)
10.3390/brainsci10050255Publication Info
(2020). Site-Specific Effects of Online rTMS during a Working Memory Task in Healthy Older
Adults. Brain sciences, 10(5). pp. 255-255. 10.3390/brainsci10050255. Retrieved from https://hdl.handle.net/10161/20719.This is constructed from limited available data and may be imprecise. To cite this
article, please review & use the official citation provided by the journal.
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Lawrence Gregory Appelbaum
Adjunct Associate Professor in the Department of Psychiatry and Behavioral Sciences
Greg Appelbaum is an Adjunct Associate Professor in the Department of Psychiatry and
Behavioral Sciences in the Duke University School of Medicine. Dr. Appelbaum's research
interests primarily concern the brain mechanisms underlying visual cognition, how
these capabilities differ among individuals, and how they can be improved through
behavioral, neurofeedback, and neuromodulation interventions. Within the field of
cognitive neuroscience, his research has addressed visual pe
Roberto Cabeza
Professor of Psychology and Neuroscience
My laboratory investigates the neural correlates of memory and cognition in young
and older adults using fMRI. We have three main lines of research: First, we distinguish
the neural correlates of various episodic memory processes. For example, we have compared
encoding vs. retrieval, item vs. source memory, recall vs. recognition, true vs. false
memory, and emotional vs. nonemotional memory. We are particularly interested in the
contribution of prefrontal cortex (PFC) and medial temporal lobe (M
Simon Wilton Davis
Assistant Professor in Neurology
My research centers around the use of structural and functional imaging measures to
study the shifts in network architecture in the aging brain. I am specifically interested
in changes in how changes in structural and functional connectivity associated with
aging impact the semantic retrieval of word or fact knowledge. Currently this involves
asking why older adults have particular difficulty in certain kinds of semantic retrieval,
despite the fact that vocabularies and knowledge stores typic
Sarah Hollingsworth Lisanby
Professor Emeritus of Psychiatry and Behavioral Sciences
Sarah Hollingsworth “Holly” Lisanby, MD, is an experienced translational
researcher and innovator of neuromodulation technologies to study and treat psychiatric
disorders. Dr. Lisanby is Director of the Division of Translational Research at NIMH,
which funds research on the discovery of preventions, treatments, and cures for mental
illness across the lifespan. She is Founder and Director of the Noninvasive Neuromodulation
Unit in the NIMH Intramural Research Progra
Angel V Peterchev
Associate Professor in Psychiatry and Behavioral Sciences
I direct the Brain Stimulation Engineering Lab (BSEL) which focuses on the development,
modeling, and application of devices and paradigms for transcranial brain stimulation.
Transcranial brain stimulation involves non-invasive delivery of fields (e.g., electric
and magnetic) to the brain that modulate neural activity. It is widely used as a tool
for research and a therapeutic intervention in neurology and psychiatry, including
several FDA-cleared indications. BSEL develops novel technology s
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