Pages that link to "Q48563156"
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The following pages link to Comparison of responses to electrical stimulation and whisker deflection using two different voltage-sensitive dyes in mouse barrel cortex in vivo (Q48563156):
Displaying 17 items.
- System identification of the nonlinear dynamics in the thalamocortical circuit in response to patterned thalamic microstimulation in vivo (Q30424210) (← links)
- Cortical dynamics subserving visual apparent motion (Q30484576) (← links)
- Imaging in vivo: watching the brain in action (Q31146515) (← links)
- Voltage-sensitive dye imaging reveals improved topographic activation of cortex in response to manipulation of thalamic microstimulation parameters (Q36020710) (← links)
- Columnar interactions determine horizontal propagation of recurrent network activity in neocortex (Q36152254) (← links)
- Effects of GABAA kinetics on cortical population activity: computational studies and physiological confirmations (Q37042023) (← links)
- Differential modulation of spontaneous and evoked thalamocortical network activity by acetylcholine level in vitro (Q37282621) (← links)
- Functional maps of neocortical local circuitry (Q37316570) (← links)
- Propagating waves of activity in the neocortex: what they are, what they do. (Q37321837) (← links)
- Spatiotemporal properties of sensory responses in vivo are strongly dependent on network context. (Q42547908) (← links)
- An evaluation of in vivo voltage-sensitive dyes: pharmacological side effects and signal-to-noise ratios after effective removal of brain-pulsation artifacts (Q45753020) (← links)
- Thalamic state control of cortical paired-pulse dynamics (Q48289561) (← links)
- Two-dimensional coincidence detection in the vibrissa/barrel field (Q48491204) (← links)
- Integration of evoked responses in supragranular cortex studied with optical recordings in vivo. (Q48600943) (← links)
- Synchronization analysis of voltage-sensitive dye imaging during focal seizures in the rat neocortex (Q48724363) (← links)
- Spatio-temporal characteristics of population responses evoked by microstimulation in the barrel cortex (Q58734405) (← links)
- INS-fOCT: a label-free, all-optical method for simultaneously manipulating and mapping brain function (Q91652477) (← links)