(2001) The Functional Magnetic Resonance Imaging Data Center (fMRIDC): the challenges and rewards of large-scale databasing of neuroimaging studies. (2002) Meta-analysis of the functional neuroanatomy of single word reading: method and validation. (1988) Coplanar Stereotaxic Atlas of the Human Brain. (2003) NeuroSys: a semistructured laboratory database. (2001) Statistical parametric mapping: An annotated bibliography. (2002) Modeling of activation data in the BrainMap database: detection of outliers. (2005) The meta-analysis of functional imaging data using replicator dynamics. Neumann, J., Lohmann, G., Derrfuss, J., and Yves von Cramon, D. National Institutes of Health (2003) Final NIH statement on sharing research data. (2000) Automated Talairach atlas labels for functional brain mapping. (2005) A comparison of label-based meta-analysis and activation likelihood estimation in the Stroop task. A supercomputer, called Mira, at Argonne National Laboratory. (2003) Towards effective and rewarding data sharing. A map of the brain would represent the single largest dataset ever collected about anything in the history of the world. However, the structure of CM is invisible on the standard T1- and T2-weighted (T1w and T2w) magnetic resonance images, which hamper it as a direct DBS. (1997) Functional volumes modeling: theory and preliminary assessment. The centromedian (CM) nucleus is an intralaminar thalamic nucleus that is considered as a potentially effective target of deep brain stimulation (DBS) and ablative surgeries for the treatment of multiple neurological and psychiatric disorders. (2001) Location-probability profiles for the mouth region of human primary motor-sensory cortex: model and validation. H., Zamarippa F., Rainey L., Lancaster J. (2002) Mapping context and content: the BrainMap model.
#Lefebvre et al human brain mapping software#
(1996) AFNI: software for analysis and visualization of functional magnetic resonance neuroimages. In this article, we discuss BrainMap’s structure and utility, and relate its progress and development as a neuroinformatics tool.Ĭox, R. During this time, BrainMap has consistently evolved to meet the challenges of an ever-changing field and continues to strive toward higher levels of applicability. BrainMap was originally conceived in 1987 and has received continuous funding from 1988 to 2004. Notable exceptions are the avian studies of Lefebvre et al. 3133), and bower-building complexity (34). 30), spatial abilities such as food-storing (focusing on the hippocampus refs. The BrainMap database was created in response to this need as an electronic environment for modeling the human brain through quantitative meta-analysis of the brain mapping literature. behavioral domains or brain regions, such as birdsong repertoire size (focusing on song nuclei ref. Because of this rapid growth, there is a great need to effectively collect and synthesize the body of literature in this field. A deep and diverse literature on the functional organization of the human brain is emerging, which has pushed neuroimaging squarely into the scientific mainstream. Human brain mapping is an experimental discipline that establishes structure-function correspondences in the brain through the combined application of experimental psychology, human neuroscience, and noninvasive neuroimaging.