Anterior regions of monkey parietal cortex process visual 3D shape.

TL;DR: Novel evidence is provided that the dorsal pathway does not only support visuomotor control but, rather, that it also derives the structural description of 3-D objects and contributes to shape perception.

TL;DR: In recent years, a growing number of studies have investigated the neural circuits underlying object grasping in both the visual and motor systems of the macaque monkey, and the accumulated knowledge helps researchers understand how object grasping is implemented in the primate brain.

TL;DR: Functional imaging reveals the human visual system consists of multiple cortical areas, with macaques and humans sharing early areas, but humans exhibiting additional regions sensitive to motion, shape, and object recognition in parietal and occipital cortices.

TL;DR: In this paper, the authors provide an overview of the value of localizer protocols to imaging research and describe a number of commonly used or novel localizers within NHPs, and the keys to implement them across studies.

TL;DR: It is proposed that the ventral stream of projections from the striate cortex to the inferotemporal cortex plays the major role in the perceptual identification of objects, while the dorsal stream projecting from the stripping to the posterior parietal region mediates the required sensorimotor transformations for visually guided actions directed at such objects.

TL;DR: Analysis of Visual Behavior deals with the visual mechanisms of diverse vertebrate species from salamanders and toads to primates and humans and presents a stimulating interaction of the disciplines of anatomy, physiology, and behavioral science.

TL;DR: Although parietal neurons represent objects in motor coordinates, visual responses are independent of the intention to perform specific motor acts, and the need for a single representation of space in environmental coordinates is eliminated.

TL;DR: Cells in area TE of the inferotemporal cortex of the monkey brain selectively respond to various moderately complex object features, and those that cluster in a columnar region that runs perpendicular to the cortical surface respond to similar features.