Thomas Klausberger

What is he best known for?

The fields of study he is best known for:

• Neuroscience
• Neuron
• Hippocampus

Neuroscience, Hippocampus, GABAergic, Pyramidal cell and Cerebral cortex are his primary areas of study. His Hippocampus research is multidisciplinary, incorporating perspectives in Hippocampal formation and Interneuron. The various areas that Thomas Klausberger examines in his Hippocampal formation study include gamma-Aminobutyric acid and Nerve net.

The concepts of his Interneuron study are interwoven with issues in Extracellular, Retrosplenial cortex, Axon initial segment and Subiculum. His GABAergic research incorporates themes from Parvalbumin and Postsynaptic potential. In his research, Thomas Klausberger undertakes multidisciplinary study on Pyramidal cell and Glutamatergic.

His most cited work include:

• Neuronal diversity and temporal dynamics: the unity of hippocampal circuit operations. (1440 citations)
• Brain-state- and cell-type-specific firing of hippocampal interneurons in vivo (1088 citations)
• Defined types of cortical interneurone structure space and spike timing in the hippocampus (759 citations)

What are the main themes of his work throughout his whole career to date?

His primary areas of study are Neuroscience, Hippocampal formation, GABAergic, Hippocampus and Pyramidal cell. His Neuroscience research focuses on subjects like gamma-Aminobutyric acid, which are linked to Central nervous system. His biological study spans a wide range of topics, including Sprague dawley, Network activity and Nerve net.

Thomas Klausberger has included themes like Ca1 pyramidal neuron, Premovement neuronal activity, Postsynaptic potential and Axon initial segment in his GABAergic study. The Hippocampus study combines topics in areas such as Inhibitory postsynaptic potential, Anatomy and Rhythm. His research investigates the connection between Pyramidal cell and topics such as Cerebral cortex that intersect with problems in Cortex and Retrosplenial cortex.

He most often published in these fields:

• Neuroscience (117.65%)
• Hippocampal formation (70.59%)
• GABAergic (79.41%)

What were the highlights of his more recent work (between 2014-2020)?

• Neuroscience (117.65%)
• Prefrontal cortex (17.65%)
• Hippocampal formation (70.59%)

In recent papers he was focusing on the following fields of study:

Thomas Klausberger mainly investigates Neuroscience, Prefrontal cortex, Hippocampal formation, Hippocampus and GABAergic. In general Neuroscience, his work in Premovement neuronal activity and Cognition is often linked to Population and Calcium imaging linking many areas of study. His work carried out in the field of Prefrontal cortex brings together such families of science as Working memory and Optogenetics.

As part of one scientific family, Thomas Klausberger deals mainly with the area of Hippocampal formation, narrowing it down to issues related to the Projection, and often Machine learning. His GABAergic research is multidisciplinary, incorporating elements of Postsynaptic potential, Parvalbumin, Interneuron and Somatostatin. His work deals with themes such as Network activity and Basal forebrain, which intersect with Interneuron.

Between 2014 and 2020, his most popular works were:

• Selective information routing by ventral hippocampal CA1 projection neurons (154 citations)
• Hippocampal Place Cells Couple to Three Different Gamma Oscillations during Place Field Traversal (46 citations)
• Divisions of Identified Parvalbumin-Expressing Basket Cells during Working Memory-Guided Decision Making (45 citations)

In his most recent research, the most cited papers focused on:

• Neuroscience
• Neuron
• Hippocampus

His scientific interests lie mostly in Neuroscience, Hippocampal formation, GABAergic, Prefrontal cortex and Hippocampus. His study on Theta oscillations and Entorhinal cortex is often connected to Oscillation, Tree traversal and Field as part of broader study in Hippocampal formation. The GABAergic study combines topics in areas such as Working memory, Cognition, Parvalbumin and Premovement neuronal activity.

His studies in Prefrontal cortex integrate themes in fields like Nucleus accumbens, Projection, Optogenetics and Amygdala. His Hippocampus research includes themes of Single-unit recording and Somatostatin.

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