Heather A. Drury scite author profile

Functional magnetic resonance imaging (fMRI) and surface-based representations of brain activity were used to compare the functional anatomy of two tasks, one involving covert shifts of attention to peripheral visual stimuli, the other involving both attentional and saccadic shifts to the same stimuli. Overlapping regional networks in parietal, frontal, and temporal lobes were active in both tasks. This anatomical overlap is consistent with the hypothesis that attentional and oculomotor processes are tightly integrated at the neural level.

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An Integrated Software Suite for Surface-based Analyses of Cerebral Cortex

Essen

Drury

Dickson

et al. 2001

Journal of the American Medical Informatics Association

1,036

831

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The authors describe and illustrate an integrated trio of software programs for carrying out surface-based analyses of cerebral cortex. The first component of this trio, SureFit (Surface Reconstruction by Filtering and Intensity Transformations), is used primarily for cortical segmentation, volume visualization, surface generation, and the mapping of functional neuroimaging data onto surfaces. The second component, Caret (Computerized Anatomical Reconstruction and Editing Tool Kit), provides a wide range of surface visualization and analysis options as well as capabilities for surface flattening, surface-based deformation, and other surface manipulations. The third component, SuMS (Surface Management System), is a database and associated user interface for surface-related data. It provides for efficient insertion, searching, and extraction of surface and volume data from the database.

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Structural and Functional Analyses of Human Cerebral Cortex Using a Surface-Based Atlas

1997

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We have analyzed the geometry, geography, and functional organization of human cerebral cortex using surface reconstructions and cortical flat maps of the left and right hemispheres generated from a digital atlas (the Visible Man). The total surface area of the reconstructed Visible Man neocortex is 1570 cm 2 (both hemispheres), ϳ70% of which is buried in sulci. By linking the Visible Man cerebrum to the Talairach stereotaxic coordinate space, the locations of activation foci reported in neuroimaging studies can be readily visualized in relation to the cortical surface. The associated spatial uncertainty was empirically shown to have a radius in three dimensions of ϳ10 mm. Application of this approach to studies of visual cortex reveals the overall patterns of activation associated with different aspects of visual function and the relationship of these patterns to topographically organized visual areas. Our analysis supports a distinction between an anterior region in ventral occipitotemporal cortex that is selectively involved in form processing and a more posterior region (in or near areas VP and V4v) involved in both form and color processing. Foci associated with motion processing are mainly concentrated in a region along the occipito-temporal junction, the ventral portion of which overlaps with foci also implicated in form processing. Comparisons between flat maps of human and macaque monkey cerebral cortex indicate significant differences as well as many similarities in the relative sizes and positions of cortical regions known or suspected to be homologous in the two species.

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Mapping visual cortex in monkeys and humans using surface-based atlases

et al. 2001

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We have used surface-based atlases of the cerebral cortex to analyze the functional organization of visual cortex in humans and macaque monkeys. The macaque atlas contains multiple partitioning schemes for visual cortex, including a probabilistic atlas of visual areas derived from a recent architectonic study, plus summary schemes that reflect a combination of physiological and anatomical evidence. The human atlas includes a probabilistic map of eight topographically organized visual areas recently mapped using functional MRI. To facilitate comparisons between species, we used surface-based warping to bring functional and geographic landmarks on the macaque map into register with corresponding landmarks on the human map. The results suggest that extrastriate visual cortex outside the known topographically organized areas is dramatically expanded in human compared to macaque cortex, particularly in the parietal lobe.

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Functional and structural mapping of human cerebral cortex: Solutions are in the surfaces

Essen

Drury

Joshi

et al. 1998

Proc. Natl. Acad. Sci. U.S.A.

333

216

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The human cerebral cortex is notorious for the depth and irregularity of its convolutions and for its variability from one individual to the next. These complexities of cortical geography have been a chronic impediment to studies of functional specialization in the cortex. In this report, we discuss ways to compensate for the convolutions by using a combination of strategies whose common denominator involves explicit reconstructions of the cortical surface. Surface-based visualization involves reconstructing cortical surfaces and displaying them, along with associated experimental data, in various complementary formats (including threedimensional native configurations, two-dimensional slices, extensively smoothed surfaces, ellipsoidal representations, and cortical f lat maps). Generating these representations for the cortex of the Visible Man leads to a surface-based atlas that has important advantages over conventional stereotaxic atlases as a substrate for displaying and analyzing large amounts of experimental data. We illustrate this by showing the relationship between functionally specialized regions and topographically organized areas in human visual cortex. Surface-based warping allows data to be mapped from individual hemispheres to a surface-based atlas while respecting surface topology, improving registration of identifiable landmarks, and minimizing unwanted distortions. Surface-based warping also can aid in comparisons between species, which we illustrate by warping a macaque f lat map to match the shape of a human f lat map. Collectively, these approaches will allow more refined analyses of commonalities as well as individual differences in the functional organization of primate cerebral cortex.The mammalian cerebral cortex contains numerous anatomically and functionally distinct areas arrayed in a complex mosaic across the cortical sheet. Efforts by cortical cartographers to determine the number, arrangement, and internal organization of these areas represent a major thrust in systems neuroscience over the entire 20th century. Nonetheless, a precise and definitive charting of the entire neocortex has yet to be attained for any species. In the human neocortex, classical neuroanatomists identified Ϸ50 architectonic subdivisions (1). However, the actual number may be 100 or more areas, given the plethora of cortical areas recently discovered in nonhuman primates (2-6) coupled with the disproportionate expansion in cortical surface area in humans compared with nonhuman primates.The prospects for accurately mapping the arrangement of functionally specialized areas in the human cerebral cortex have been enhanced greatly by recent advances in noninvasive neuroimaging techniques. Positron emission tomography allows localization of activation foci with an accuracy on the order of 1 cm, and functional MRI has even better spatial resolution, comparable to the 3-mm thickness of the cortical sheet. By combining functional MRI with structural MRI, it is possible to map activation patterns precisely in rel...

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Heather A. Drury

A Common Network of Functional Areas for Attention and Eye Movements

An Integrated Software Suite for Surface-based Analyses of Cerebral Cortex

Structural and Functional Analyses of Human Cerebral Cortex Using a Surface-Based Atlas

Mapping visual cortex in monkeys and humans using surface-based atlases

Functional and structural mapping of human cerebral cortex: Solutions are in the surfaces

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