The Influence of the Dorsal Pathway on Enhanced Visual Processing

Overall our visual experience is such a seamless one that unless specifically told, we might never know that what we see is actually the visual system taking the very simple input provided by cells in the retina and constructing an image based on rules and calculations and algorithms neuroscientists have yet to fully uncover. This is an incredible feat given the plethora of visual stimuli within our environment, that this information is used to inform and plan actions, and if that wasnt enough, the visual system also has the capacity to selectively enhance certain aspects of visual processing if needs be. The research contained within this dissertation seeks to investigate how the dorsal visual pathway enhances both decision-making processes and visual stimuli presented near the hand.
Our findings suggest that the formation of object representations in the dorsal pathway can include both ventral (colour, contrast) and dorsal (speed) stream features (chapters two and three), which in turn greatly speed decision-making processes within the dorsal pathway. In addition, contrast and speed are integrated automatically but purely ventral stream features, such as colour, require top-down attention to facilitate enhanced processing speeds (chapter three). In chapter four we find that visual processing near the hand is enhanced in a novel way. When the hand is nearby, orientation tuning is sharpened in a manner not consistent with either oculomotor-driven spatial or feature based attention. In addition, response variability is reduced when the hand is nearby, raising the possibility that enhanced processing near the hand maybe be driven by feedback from frontoparietal reaching and grasping regions. The research within this dissertation includes important new information regarding how the dorsal pathway can speed visual processing, and provides insight as to the next stage in understanding how we use vision for action.