T
Thomas Klausberger
Researcher at Medical University of Vienna
Publications - 63
Citations - 9295
Thomas Klausberger is an academic researcher from Medical University of Vienna. The author has contributed to research in topics: Hippocampal formation & Hippocampus. The author has an hindex of 34, co-authored 56 publications receiving 8283 citations. Previous affiliations of Thomas Klausberger include University of Vienna & University of Oxford.
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Journal ArticleDOI
Neuronal diversity and temporal dynamics: the unity of hippocampal circuit operations.
TL;DR: The spatiotemporal specializations in cortical circuits reveal that cellular diversity and temporal dynamics coemerged during evolution, providing a basis for cognitive behavior.
Journal ArticleDOI
Brain-state- and cell-type-specific firing of hippocampal interneurons in vivo
Thomas Klausberger,Peter J. Magill,László F. Márton,J. David B. Roberts,P M Cobden,György Buzsáki,Peter Somogyi +6 more
TL;DR: It is reported that three distinct interneuron types—basket, axo-axonic and oriens–lacunosum-moleculare cells—visualized and defined by synaptic connectivity as well as by neurochemical markers, contribute differentially to theta and ripple oscillations in anaesthetized rats.
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Defined types of cortical interneurone structure space and spike timing in the hippocampus
TL;DR: Roles for specific interneurone types are suggested in structuring the activity of pyramidal cells via their respective target domains, and accurately timing and synchronizingPyramidal cell discharge, rather than providing generalized inhibition.
Journal ArticleDOI
Complementary Roles of Cholecystokinin- and Parvalbumin-Expressing GABAergic Neurons in Hippocampal Network Oscillations
Thomas Klausberger,László F. Márton,Joseph O'Neill,Jojanneke H. J. Huck,Yannis Dalezios,Pablo Fuentealba,Wai Yee Suen,Edit Papp,Takeshi Kaneko,Masahiko Watanabe,Jozsef Csicsvari,Peter Somogyi +11 more
TL;DR: It is suggested that the specific spike timing of cholecystokinin interneurons and their sensitivity to endocannabinoids might contribute to differentiate subgroups of pyramidal cells forming neuronal assemblies, whereas parvalbumin interneeurons contribute to synchronizing the entire network.
Journal ArticleDOI
Spike timing of dendrite-targeting bistratified cells during hippocampal network oscillations in vivo.
Thomas Klausberger,László F. Márton,Agnès Baude,Agnès Baude,J. David B. Roberts,Peter J. Magill,Peter Somogyi +6 more
TL;DR: The results indicate that bistratified cells rhythmically modulate glutamatergic input to the dendrites of pyramidal cells to actively promote the precise input/output transformation during network oscillations.