People adapt with remarkable flexibility to reversal of the visual field ca
used by prism spectacles(1,2). With sufficient time, this adaptation restor
es visually guided behaviour and perceptual harmony between the visible and
tactile worlds(1-3). Although it has been suggested that seeing one's own
body is crucial for adaptation(1,2), the underlying mechanisms are unclear.
Here we show that a new representation of visuomotor mapping with respect
to the hands emerges in a month during adaptation to reversed vision. The s
ubjects become bi-perceptual(3-5), or able to use both new and old represen
tations. In a visual task designed to assess the new hand representation, s
ubjects identified visually presented hands as left or right by matching th
e picture to the representation of their own hands. Functional magnetic res
onance imaging showed brain activity in the left posterior frontal cortex (
Broca's area) that was unique to the new hand representations of both hands
, together with activation in the intraparietal sulcus and prefrontal corte
x. The emergence of the new hand representation coincided with the adaptati
on of perceived location of visible objects in space. These results suggest
that the hand representation operates as a visuomotor transformation devic
e that provides an arm-centred frame of reference(6) for space perception.