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Beyond memory, navigation, and inhibition: behavioral evidence for hippocampus-dependent cognitive coordination in the rat. On how the dentate gyrus contributes to memory discrimination. Normal CA1 place fields but discoordinated network discharge in a Fmr1-null mouse model of fragile X syndrome.
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Compensation for PKMzeta in long-term potentiation and spatial long-term memory in mutant mice. Storage of spatial information by the maintenance mechanism of LTP. Persistent increases of PKMzeta in memory-activated neurons trace LTP maintenance during spatial long-term memory storage. Inactivating one hippocampus impairs avoidance of a stable room-defined place during dissociation of arena cues from room cues by rotation of the arena. Persistent modifications of hippocampal synaptic function during remote spatial memory. Recovery of functional and structural age-related changes in the rat primary auditory cortex with operant training. Theoretical foundations of cognitive-behavior therapy for anxiety and depression.
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Brain plasticity through the life span: learning to learn and action video games. A national experiment reveals where a growth mindset improves achievement. Naïve to expert: Considering the role of previous knowledge in memory. Teaching an adult brain new tricks: a critical review of evidence for training-dependent structural plasticity in humans. Adaptive training diminishes distractibility in aging across species. Mishra, J., de Villers-Sidani, E., Merzenich, M. Video game training enhances cognitive control in older adults. Computerized cognitive training restores neural activity within the reality monitoring network in schizophrenia. These neurobiological findings support the neuroplasticity hypothesis that, as well as storing item–event associations, CCT persistently optimizes neural circuit information processing. CCT increases inhibition that attenuates the dentate response to medial entorhinal cortical input, and through disinhibition, potentiates the response to strong inputs, pointing to overall signal-to-noise enhancement. CCT rapidly changes entorhinal cortex-to-dentate gyrus synaptic circuit function, resulting in an excitatory–inhibitory subcircuit change that persists for months. CCT facilitated learning new tasks in novel environments for several weeks, relative to unconditioned controls and control mice that avoided the same place during reduced distraction. We show that mice learned and remembered a conditioned place avoidance during CCT that required ignoring irrelevant locations of shock. Here we investigated whether CCT persistently alters hippocampal neural circuit function. Could learning that uses cognitive control to judiciously use relevant information while ignoring distractions generally improve brain function, beyond forming explicit memories? According to a neuroplasticity hypothesis for how some cognitive behavioural therapies are effective, cognitive control training (CCT) changes neural circuit information processing 1, 2, 3.