Pages that link to "Q79936194"

The following pages link to Cortex mediates multisensory but not unisensory integration in superior colliculus (Q79936194):

Displaying 40 items.

• Organization and plasticity in multisensory integration: early and late experience affects its governing principles (Q24618177) (← links)
• The neural basis of multisensory integration in the midbrain: its organization and maturation (Q24646529) (← links)
• Developmental plasticity of spatial hearing following asymmetric hearing loss: context-dependent cue integration and its clinical implications (Q26824683) (← links)
• Development of multisensory integration from the perspective of the individual neuron (Q26852153) (← links)
• Similar prevalence and magnitude of auditory-evoked and visually evoked activity in the frontal eye fields: implications for multisensory motor control. (Q30355237) (← links)
• The Role of Glia in the Peripheral and Central Auditory System Following Noise Overexposure: Contribution of TNF-α and IL-1β to the Pathogenesis of Hearing Loss (Q30361410) (← links)
• Multisensory Plasticity in Superior Colliculus Neurons is Mediated by Association Cortex. (Q30362099) (← links)
• Noise-Induced "Toughening" Effect in Wistar Rats: Enhanced Auditory Brainstem Responses Are Related to Calretinin and Nitric Oxide Synthase Upregulation. (Q30386234) (← links)
• Brief cortical deactivation early in life has long-lasting effects on multisensory behavior (Q30425511) (← links)
• Noise-rearing disrupts the maturation of multisensory integration (Q30441990) (← links)
• Neural responses in parietal and occipital areas in response to visual events are modulated by prior multisensory stimuli (Q30444864) (← links)
• Fabrication of an inexpensive, implantable cooling device for reversible brain deactivation in animals ranging from rodents to primates. (Q30453505) (← links)
• The descending corticocollicular pathway mediates learning-induced auditory plasticity (Q30455304) (← links)
• Incorporating cross-modal statistics in the development and maintenance of multisensory integration (Q30458701) (← links)
• Initiating the development of multisensory integration by manipulating sensory experience (Q30479219) (← links)
• The non-lemniscal auditory cortex in ferrets: convergence of corticotectal inputs in the superior colliculus (Q30480470) (← links)
• Adult plasticity in multisensory neurons: short-term experience-dependent changes in the superior colliculus (Q30481052) (← links)
• Multisensory integration in the superior colliculus requires synergy among corticocollicular inputs. (Q30484052) (← links)
• Cortical neurons combine visual cues about self-movement (Q30497779) (← links)
• Maturation of multisensory integration in the superior colliculus: expression of nitric oxide synthase and neurofilament SMI-32 (Q33666343) (← links)
• A neural network model of multisensory integration also accounts for unisensory integration in superior colliculus (Q33670667) (← links)
• Synaptic organization of the tectorecipient zone of the rat lateral posterior nucleus (Q35545947) (← links)
• Multisensory plasticity in adulthood: cross-modal experience enhances neuronal excitability and exposes silent inputs. (Q36534140) (← links)
• Pain and analgesia: the value of salience circuits (Q36817805) (← links)
• Development of cortical influences on superior colliculus multisensory neurons: effects of dark-rearing (Q36863827) (← links)
• The influences of associative cortices on cross-modal integration in the superior colliculus (Q37089541) (← links)
• Axon morphologies and convergence patterns of projections from different sensory-specific cortices of the anterior ectosylvian sulcus onto multisensory neurons in the cat superior colliculus (Q37414401) (← links)
• Challenges in quantifying multisensory integration: alternative criteria, models, and inverse effectiveness. (Q37529467) (← links)
• Postnatal experiences influence how the brain integrates information from different senses. (Q37617033) (← links)
• Organization, maturation, and plasticity of multisensory integration: insights from computational modeling studies (Q39737698) (← links)
• An emergent model of multisensory integration in superior colliculus neurons (Q40257578) (← links)
• Hebbian mechanisms help explain development of multisensory integration in the superior colliculus: a neural network model. (Q41787720) (← links)
• A Layer-specific Corticofugal Input to the Mouse Superior Colliculus. (Q47997890) (← links)
• Pulsed Stimuli Elicit More Robust Multisensory Enhancement than Expected (Q49755744) (← links)
• Development of the mechanisms governing midbrain multisensory integration (Q50421273) (← links)
• Neuroglial Involvement in Abnormal Glutamate Transport in the Cochlear Nuclei of the Igf1−/− Mouse (Q64076560) (← links)
• Do the Different Sensory Areas Within the Cat Anterior Ectosylvian Sulcal Cortex Collectively Represent a Network Multisensory Hub? (Q64950103) (← links)
• Within- and Cross-Modal Integration and Attention in the Autism Spectrum (Q90185256) (← links)
• Cross-Modal Competition: The Default Computation for Multisensory Processing (Q90681024) (← links)
• An unperceived acoustic stimulus decreases reaction time to visual information in a patient with cortical deafness (Q91522316) (← links)