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The brachium of superior colliculus (or superior brachium) is a branch that extends laterally from the superior colliculus, and, passing to the thalamus between the pulvinar and the medial geniculate nuclei, is partly continued into an eminence called the lateral geniculate nucleus, and partly into the optic tract.
The pulvinar nuclei or nuclei of the pulvinar (nuclei pulvinares) are the nuclei (cell bodies of neurons) located in the thalamus (a part of the vertebrate brain). [1] As a group they make up the collection called the pulvinar of the thalamus ( pulvinar thalami ), usually just called the pulvinar .
Lateral pulvinar nucleus, together with its inferior and medial nuclei, receives afferent input from superior colliculus. [1] [2] The dorsal part of the lateral pulvinar nucleus also receives afferent input from posterior parietal cortex and the dorsal stream cortical areas. [1] [2]
The other major retino–cortical visual pathway is the tectopulvinar pathway, routing primarily through the superior colliculus and thalamic pulvinar nucleus onto posterior parietal cortex and visual area MT.
Attention can be guided by top-down processing or via bottom up processing. Posner's model of attention includes a posterior attentional system involved in the disengagement of stimuli via the parietal cortex, the shifting of attention via the superior colliculus and the engagement of a new target via the pulvinar. The anterior attentional ...
The pulvinar is located posterior to the thalamus and its role in the orientating system is still being researched; however it is thought to be involved in covert orienting. [2] Finally, the superior colliculus provides information about the location of the stimuli to which attention is directed.
Medial pulvinar nucleus is also thought to participate in the process of integration and association of information received from different sensory modalities (multisensory or multimodal integration), and also in the process of integration and coordination of sensor input and its corresponding motor response (sensorimotor integration). [3]
There are three theories for the explanation of blindsight. The first states that after damage to area V1, other branches of the optic nerve deliver visual information to the superior colliculus, pulvinar [23] [24] and several other areas, including parts of the cerebral cortex. In turn, these areas might then control the blindsight responses.