Author response: Energy efficient synaptic plasticity
(2019)
Other
Li, H. L., & van Rossum, M. C. (2019). Author response: Energy efficient synaptic plasticity
All Outputs (5)
Frequency- and state-dependent effects of hippocampal neural disinhibition on hippocampal local field potential oscillations in anaesthetised rats (2019)
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Gwilt, M., Bauer, M., & Bast, T. (2019). Frequency- and state-dependent effects of hippocampal neural disinhibition on hippocampal local field potential oscillations in anaesthetised ratsReduced inhibitory GABA function, so-called neural disinhibition, has been implicated in cognitive disorders, including schizophrenia and age-related cognitive decline. We previously showed in rats that hippocampal disinhibition by local microinfusio... Read More about Frequency- and state-dependent effects of hippocampal neural disinhibition on hippocampal local field potential oscillations in anaesthetised rats.
The neural bases of resilient cognitive systems: Evidence of variable neuro-displacement in the semantic system (2019)
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Jung, J., Rice, G. E., & Lambon Ralph, M. A. The neural bases of resilient cognitive systems: Evidence of variable neuro-displacement in the semantic systemThe purpose of this study was to initiate exploration of an equally-important research goal: what are the neurocomputational mechanisms that make these cognitive systems “well engineered” and thus resilient across a range of performance demands and t... Read More about The neural bases of resilient cognitive systems: Evidence of variable neuro-displacement in the semantic system.
Energy efficient synaptic plasticity (2019)
Other
Li, H. L., & van Rossum, M. C. W. Energy efficient synaptic plasticityMany aspects of the brain’s design can be understood as the result of evolutionary drive towards efficient use of metabolic energy. In addition to the energetic costs of neural computation and transmission, experimental evidence indicates that synapt... Read More about Energy efficient synaptic plasticity.
Author response: Self-organized reactivation maintains and reinforces memories despite synaptic turnover (2019)
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Fauth, M. J., & van Rossum, M. C. (2019). Author response: Self-organized reactivation maintains and reinforces memories despite synaptic turnover