Neural substrates for depth perception of the Necker cube; a functional magnetic resonance imaging study in human subjects

We have studied the cerebral activity for the depth perception of the Necker cube by functional magnetic resonance imaging. Three types of line drawing figures were used as stimuli, the Necker cube, hidden line elimination cube and overlapping squares. Subjects were instructed to perceive both orientations of the depth of the Necker cube. They were instructed to shift their attention voluntarily during viewing overlapping squares to obtain a control for the attentional shift in perceiving the Necker cube. A hidden line elimination cube was used as a control for monocular stereopsis. The results showed a clear symmetrical activation in premotor and parietal areas during the Necker cube perception compared with other conditions. The present result suggests that a neural process similar to mental image manipulation occurs during depth perception of the Necker cube.

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