Inferotemportal cortex

From Psy3241

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[[Category:Brain areas]]
[[Category:Brain areas]]
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The Inferotemporal cortex (IT) is a higher visual area in the brain that is essential for recognizing and perceiving objects. It is part of the ventral stream of the primary visual cortex or V1. The primary visual cortex or V1 transmits information to two pathways in the brain; the dorsal stream and the ventral stream. The ventral stream begins with V1, goes through V2 and V4, then information goes to the inferior temporal cortex. It is the final visual area in the ventral stream of cortical areas responsible for object recognition. Faces and shapes with particular color and texture combinations are complex objects that are recognized with the IT. Action potentials are fired selectively in response to these complex objects which makes removal of the IT impairs the recognition and memory of objects. and facesNeurons in the IT fire action potentials selectively in response to certain complex objects like shapes and faces
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The Inferotemporal cortex (IT) is an area in the brain important for high-level visual processing and is essential for recognizing and perceiving objects. It is part of the ventral stream of the primary visual cortex or V1. The primary visual cortex transmits information to two pathways in the brain; the dorsal stream and the ventral stream. The ventral stream begins with V1, goes through V2 and V4, and from there information goes to the inferior temporal cortex. It is the final visual area in the ventral stream of cortical areas responsible for object recognition.  
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==Damage to the Inferior Temporal Cortex==
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Faces and shapes with particular color and texture combinations are complex objects that are recognized with the IT. Action potentials (also known as nerve impulse) are fired selectively in response to these complex objects which suggesting that removal or impairment of the IT causes our recognition and memory of objects to suffer. Evidence of this impairment has been documented and suggests that IT is plays a critical role in our ability to recognize, categorize and remember large amounts of complex images.
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Anomia, impaired recall of words with no impairment of comprehension or the capacity to repeat the words is associated with damage to the inferior temporal cortex. Research suggests that pure anomia (inability to access word forms) may follow damage to posterior inferior temporal cortex while semantic anomia (degradation of semantic knowledge) is associated with damage to anterior temporal lobe regions.

Revision as of 22:47, 27 April 2008


The Inferotemporal cortex (IT) is an area in the brain important for high-level visual processing and is essential for recognizing and perceiving objects. It is part of the ventral stream of the primary visual cortex or V1. The primary visual cortex transmits information to two pathways in the brain; the dorsal stream and the ventral stream. The ventral stream begins with V1, goes through V2 and V4, and from there information goes to the inferior temporal cortex. It is the final visual area in the ventral stream of cortical areas responsible for object recognition.

Damage to the Inferior Temporal Cortex

Faces and shapes with particular color and texture combinations are complex objects that are recognized with the IT. Action potentials (also known as nerve impulse) are fired selectively in response to these complex objects which suggesting that removal or impairment of the IT causes our recognition and memory of objects to suffer. Evidence of this impairment has been documented and suggests that IT is plays a critical role in our ability to recognize, categorize and remember large amounts of complex images. Anomia, impaired recall of words with no impairment of comprehension or the capacity to repeat the words is associated with damage to the inferior temporal cortex. Research suggests that pure anomia (inability to access word forms) may follow damage to posterior inferior temporal cortex while semantic anomia (degradation of semantic knowledge) is associated with damage to anterior temporal lobe regions.

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