Massimo Scanziani wetenschapper
Scanziani, Massimo
VIAF ID: 21603039 (Personal)
Permalink: http://viaf.org/viaf/21603039
Preferred Forms
- 100 0 _ ‡a Massimo Scanziani ‡c wetenschapper
- 100 1 _ ‡a Scanziani, Massimo
- 100 1 _ ‡a Scanziani, Massimo
- 100 1 _ ‡a Scanziani, Massimo
-
4xx's: Alternate Name Forms (2)
Works
Title | Sources |
---|---|
Atallah et al. reply. | |
Circuits inhibiteurs élémentaires de l'hippocampe | |
A collicular visual cortex: Neocortical space for an ancient midbrain visual structure | |
Competing on the edge | |
Complementary modulation of somatic inhibition by opioids and cannabinoids | |
The contribution of synaptic location to inhibitory gain control in pyramidal cells | |
Cooperation between independent hippocampal synapses is controlled by glutamate uptake | |
Cortical direction selectivity emerges at convergence of thalamic synapses | |
Cortico-fugal output from visual cortex promotes plasticity of innate motor behaviour | |
Distinct recurrent versus afferent dynamics in cortical visual processing. | |
Distinct timing in the activity of cannabinoid-sensitive and cannabinoid-insensitive basket cells | |
Electrophysiology in the age of light | |
Equalizing excitation-inhibition ratios across visual cortical neurons | |
Feedback generates a second receptive field in neurons of the visual cortex | |
First spikes in visual cortex enable perceptual discrimination. | |
Head Movements Control the Activity of Primary Visual Cortex in a Luminance-Dependent Manner | |
How inhibition shapes cortical activity | |
An improved chloride-conducting channelrhodopsin for light-induced inhibition of neuronal activity in vivo. | |
In vivo Labeling of Constellations of Functionally Identified Neurons for Targeted in vitro Recordings. | |
The information content of physiological and epileptic brain activity | |
Inhibition of inhibition in visual cortex: the logic of connections between molecularly distinct interneurons | |
Inhibitory circuits of the cortex control of rhythmic and stimulus evoked activity | |
Input normalization by global feedforward inhibition expands cortical dynamic range | |
Instantaneous modulation of gamma oscillation frequency by balancing excitation with inhibition | |
Interneurons hyperpolarize pyramidal cells along their entire somatodendritic axis | |
It's about time for thalamocortical circuits | |
Lateral competition for cortical space by layer-specific horizontal circuits | |
Learning speed and detection sensitivity controlled by distinct cortico-fugal neurons in visual cortex | |
Linking neuronal ensembles by associative synaptic plasticity | |
Motor cortex maturation is associated with reductions in recurrent connectivity among functional subpopulations and increases in intrinsic excitability | |
Multicolor Polymeric Nanoparticle Neuronal Tracers | |
Multiple clusters of release sites formed by individual thalamic afferents onto cortical interneurons ensure reliable transmission. | |
Neocortical disynaptic inhibition requires somatodendritic integration in interneurons. | |
A neural circuit for spatial summation in visual cortex | |
New insights into the classification and nomenclature of cortical GABAergic interneurons | |
Parvalbumin-expressing interneurons linearly transform cortical responses to visual stimuli | |
Postsynaptic mechanisms govern the differential excitation of cortical neurons by thalamic inputs | |
A precritical period for plasticity in visual cortex | |
Pyramidal cells in piriform cortex receive convergent input from distinct olfactory bulb glomeruli | |
Reorganization of Recurrent Layer 5 Corticospinal Networks Following Adult Motor Training | |
Routing of spike series by dynamic circuits in the hippocampus | |
Self-administering cannabinoids | |
Somatosensory integration controlled by dynamic thalamocortical feed-forward inhibition. | |
Supralinear increase of recurrent inhibition during sparse activity in the somatosensory cortex. | |
Thalamocortical Projections onto Behaviorally Relevant Neurons Exhibit Plasticity during Adult Motor Learning | |
Translaminar inhibitory cells recruited by layer 6 corticothalamic neurons suppress visual cortex | |
Tuned thalamic excitation is amplified by visual cortical circuits | |
Visual physiology of the layer 4 cortical circuit in silico |