A. Busch
9 Papers
A. Busch is an academic researcher. The author has contributed to research in topics: Prefrontal cortex & Computer science. The author has co-authored 6 publications.
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Papers
P.036 Exploring changes in functional connectivity after a first unprovoked seizure: an fMRI resting state and movie-driven data study
EM Paredes-Aragón,Maliheh Hasanzadeh Mofrad,A. Busch,Alan Kahn,Ingrid S. Johnsrude,L. Muller,S. Mirsattari +6 more
TL;DR: Although no network connectivity differences were found between patients and controls, when movie-driven data was analyzed, differences were seen when comparing patients in the default mode network, visual association cortex, and dorsal posterior cingulate.
Horizontal cortical connections shape intrinsic traveling waves into feature-selective motifs that regulate perceptual sensitivity
Zachary W. Davis,A. Busch,Christopher Steward,Lyle Muller,John Reynolds +4 more
TL;DR: Evidence is provided that iTWs are shaped by the patterns of horizontal fiber projections in the cortex and that patchy connections enable iTWs to regulate neural and perceptual sensitivity in a feature selective manner.
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Neuronal activation sequences in lateral prefrontal cortex encode visuospatial working memory during virtual navigation
A. Busch,Megan Roussy,Rogelio Luna,Matthew L. Leavitt,Maryam H. Mofrad,Roberto A. Gulli,Benjamin Corrigan,Ján Mináč,Adam Sachs,Lena Palaniyappan,Lyle Muller,J. Martinez-Trujillo +11 more
TL;DR: Simultaneous recordings of hundreds of neurons in macaque monkeys' lateral prefrontal cortex reveal distinct neuronal activation sequences encoding visuospatial working memory during virtual navigation, outperforming traditional firing codes and sensitive to NMDA receptor blockade.
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Neural sequences in primate prefrontal cortex encode working memory in naturalistic environments
Megan Roussy,A. Busch,Rogelio Luna,Matthew L. Leavitt,Maryam H. Mofrad,Roberto A. Gulli,Benjamin Corrigan,Jan Minac,Adam Sachs,Lena Palaniyappan,Lyle Muller,Julio Martinez-Trujillo +11 more
TL;DR: It is demonstrated that microcircuits in layers 2/3 of the primate lateral prefrontal cortex dynamically represent memory content in a naturalistic task through sequential activation of single neurons.