M
Michael S. Bienkowski
Researcher at University of Southern California
Publications - 32
Citations - 1839
Michael S. Bienkowski is an academic researcher from University of Southern California. The author has contributed to research in topics: Hippocampal formation & Medicine. The author has an hindex of 10, co-authored 24 publications receiving 1148 citations. Previous affiliations of Michael S. Bienkowski include University of Pittsburgh.
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Journal ArticleDOI
Neural Networks of the Mouse Neocortex
Brian Zingg,Houri Hintiryan,Lin Gou,Monica Y. Song,Maxwell Bay,Michael S. Bienkowski,Nicholas N. Foster,Seita Yamashita,Ian Bowman,Arthur W. Toga,Hong-Wei Dong +10 more
TL;DR: Cortico-cortical connectivity map and connectivity matrices revealed that the entire cortex is organized into four somatic sensorimotor, two medial, and two lateral subnetworks that display unique topologies and can interact through select cortical areas.
Journal ArticleDOI
The mouse cortico-striatal projectome.
Houri Hintiryan,Nicholas N. Foster,Ian Bowman,Maxwell Bay,Monica Y. Song,Lin Gou,Seita Yamashita,Michael S. Bienkowski,Brian Zingg,Muye Zhu,X. William Yang,Jean C. Shih,Arthur W. Toga,Hong-Wei Dong +13 more
TL;DR: An open-access comprehensive mesoscale mouse cortico-striatal projectome is developed: a detailed connectivity projection map from the entire cerebral cortex to the dorsal striatum or caudoputamen in rodents, which identifies 29 distinct functional striatal domains.
Journal ArticleDOI
Integration of gene expression and brain-wide connectivity reveals the multiscale organization of mouse hippocampal networks.
Michael S. Bienkowski,Ian Bowman,Monica Y. Song,Lin Gou,Tyler Ard,Kaelan Cotter,Muye Zhu,Nora L. Benavidez,Seita Yamashita,Jaspar Abu-Jaber,Sana Azam,Darrick Lo,Nicholas N. Foster,Houri Hintiryan,Hong-Wei Dong +14 more
TL;DR: A new subregional atlas of the mouse hippocampus is created that integrates gene expression with anatomical connectivity to reveal the multiscale organization of the hippocampus and its connections throughout the brain.
Posted ContentDOI
The mouse cortico-basal ganglia-thalamic network
Nicholas N. Foster,Nicholas N. Foster,Laura Korobkova,Luis Garcia,Luis Garcia,Lei Gao,Lei Gao,Marlene Becerra,Yasmine Sherafat,Bo Peng,Xiangning Li,Jun-Hyeok Choi,Lin Gou,Lin Gou,Brian Zingg,Brian Zingg,Sana Azam,Darrick Lo,Darrick Lo,Neda Khanjani,Bin Zhang,Bin Zhang,Jim Stanis,Ian Bowman,Ian Bowman,Kaelan Cotter,Kaelan Cotter,Chunru Cao,Chunru Cao,Seita Yamashita,Seita Yamashita,Amanda J. Tugangui,Amanda J. Tugangui,Anan Li,Anan Li,Tao Jiang,Xueyan Jia,Zhao Feng,Sarvia Aquino,Gordon Dan,Marina Fayzullina,Hyun-Seung Mun,Sarah Ustrell,Tyler Boesen,Tyler Boesen,Anthony Santarelli,Muye Zhu,Muye Zhu,Nora L. Benavidez,Monica Song,David L. Johnson,Hanpeng Xu,Hanpeng Xu,Michael S. Bienkowski,X. William Yang,Hui Gong,Hui Gong,Ian R. Wickersham,Qingming Luo,Qingming Luo,Byung Kook Lim,Li I. Zhang,Houri Hintiryan,Houri Hintiryan,Hong-Wei Dong,Hong-Wei Dong +65 more
TL;DR: This study identifies 6 parallel cortico-basal ganglia-thalamic subnetworks that sequentially transduce specific subsets of cortical information with complex patterns of convergence and divergence through every elemental node of the entire cortico,basal, andthalamic loop.
Journal ArticleDOI
Common and distinct neural inputs to the medial central nucleus of the amygdala and anterior ventrolateral bed nucleus of stria terminalis in rats
TL;DR: The demonstrated similarities and differences in inputs to CEAm and BSTvl provide new anatomical insights into the functional organization of these limbic forebrain regions.