Causal functional maps of brain rhythms in working memory.
Miles WischnewskiTaylor A BergerAlexander OpitzIvan AlekseichukPublished in: Proceedings of the National Academy of Sciences of the United States of America (2024)
Human working memory is a key cognitive process that engages multiple functional anatomical nodes across the brain. Despite a plethora of correlative neuroimaging evidence regarding the working memory architecture, our understanding of critical hubs causally controlling overall performance is incomplete. Causal interpretation requires cognitive testing following safe, temporal, and controllable neuromodulation of specific functional anatomical nodes. Such experiments became available in healthy humans with the advance of transcranial alternating current stimulation (tACS). Here, we synthesize findings of 28 placebo-controlled studies (in total, 1,057 participants) that applied frequency-specific noninvasive stimulation of neural oscillations and examined working memory performance in neurotypical adults. We use a computational meta-modeling method to simulate each intervention in realistic virtual brains and test reported behavioral outcomes against the stimulation-induced electric fields in different brain nodes. Our results show that stimulating anterior frontal and medial temporal theta oscillations and occipitoparietal gamma rhythms leads to significant dose-dependent improvement in working memory task performance. Conversely, prefrontal gamma modulation is detrimental to performance. Moreover, we found distinct spatial expression of theta subbands, where working memory changes followed orbitofrontal high-theta modulation and medial temporal low-theta modulation. Finally, all these results are driven by changes in working memory accuracy rather than processing time measures. These findings provide a fresh view of the working memory mechanisms, complementary to neuroimaging research, and propose hypothesis-driven targets for the clinical treatment of working memory deficits.
Keyphrases
- working memory
- transcranial direct current stimulation
- attention deficit hyperactivity disorder
- randomized controlled trial
- white matter
- traumatic brain injury
- resting state
- type diabetes
- poor prognosis
- endothelial cells
- multiple sclerosis
- metabolic syndrome
- skeletal muscle
- adipose tissue
- brain injury
- study protocol
- cerebral ischemia
- transcranial magnetic stimulation
- placebo controlled
- oxidative stress
- stress induced