TY - JOUR
T1 - Computerized mappings of the cerebral cortex
T2 - A multiresolution flattening method and a surface-based coordinate system
AU - Drury, Heather A.
AU - Van Essen, David C.
AU - Anderson, Charles H.
AU - Lee, Chris W.
AU - Coogan, Thomas A.
AU - Lewis, James W.
PY - 1996
Y1 - 1996
N2 - We present a new method for generating two-dimensional maps of the cerebral cortex. Our computerized, two-stage flattening method takes as its input any well-defined representation of a surface within the three-dimensional cortex. The first stage rapidly converts this surface to a topologically correct two-dimensional map, without regard for the amount of distortion introduced. The second stage reduces distortions using a multiresolution strategy that makes gross shape changes on a coarsely sampled map and further shape refinements on progressively finer resolution maps. We demonstrate the utility of this approach by creating flat maps of the entire cerebral cortex in the macaque monkey and by displaying various types of experimental data on such maps. We also introduce a surface-based coordinate system that has advantages over conventional stereotaxic coordinates and is relevant to studies of cortical organization in humans as well as nonhuman primates. Together, these methods provide an improved basis for quantitative studies of individual variability in cortical organization.
AB - We present a new method for generating two-dimensional maps of the cerebral cortex. Our computerized, two-stage flattening method takes as its input any well-defined representation of a surface within the three-dimensional cortex. The first stage rapidly converts this surface to a topologically correct two-dimensional map, without regard for the amount of distortion introduced. The second stage reduces distortions using a multiresolution strategy that makes gross shape changes on a coarsely sampled map and further shape refinements on progressively finer resolution maps. We demonstrate the utility of this approach by creating flat maps of the entire cerebral cortex in the macaque monkey and by displaying various types of experimental data on such maps. We also introduce a surface-based coordinate system that has advantages over conventional stereotaxic coordinates and is relevant to studies of cortical organization in humans as well as nonhuman primates. Together, these methods provide an improved basis for quantitative studies of individual variability in cortical organization.
UR - http://www.scopus.com/inward/record.url?scp=0030066206&partnerID=8YFLogxK
U2 - 10.1162/jocn.1996.8.1.1
DO - 10.1162/jocn.1996.8.1.1
M3 - Article
C2 - 11539144
AN - SCOPUS:0030066206
SN - 0898-929X
VL - 8
SP - 1
EP - 28
JO - Journal of Cognitive Neuroscience
JF - Journal of Cognitive Neuroscience
IS - 1
ER -