Brain atlas: Difference between revisions
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{{Image|Bohland 2009 The Brain Atlas Concordance Problem Quantitative Comparison of Anatomical Parcellations.Fig.1A.Fig.7A-composite.png|right|350px|''(Top left, top right, bottom left)'' [[Coronal]], [[sagittal]] and [[axial]] [[MRI]] slices through a [[brain]], with colours indicating different [[anatomical region]]s. This labeling process turns the [[neuroimaging|brain images]] into a [[brain atlas]]. ''(Bottom right)'' Correspondence between brain atlases: [[3D]] [[Rendering]] of three anatomical regions in the left [[temporal lobe]] as delineated by two different brain atlases. The largest region, labeled ''Superior Temporal'' in one atlas, shown in yellow, overlaps both the [[Superior Temporal Gyrus]] (blue) and the [[Middle Temporal Gyrus]] (red) regions in another atlas (the same as in the previous images) to differing degrees. From [[CZ:Ref:Bohland 2009 The Brain Atlas Concordance Problem Quantitative Comparison of Anatomical Parcellations|Bohland et al., 2009]].}} | {{Image|Bohland 2009 The Brain Atlas Concordance Problem Quantitative Comparison of Anatomical Parcellations.Fig.1A.Fig.7A-composite.png|right|350px|''(Top left, top right, bottom left)'' [[Coronal]], [[sagittal]] and [[axial]] [[MRI]] slices through a [[brain]], with colours indicating different [[anatomical region]]s. This labeling process turns the [[neuroimaging|brain images]] into a [[brain atlas]]. ''(Bottom right)'' Correspondence between brain atlases: [[3D]] [[Rendering]] of three anatomical regions in the left [[temporal lobe]] as delineated by two different brain atlases. The largest region, labeled ''Superior Temporal'' in one atlas, shown in yellow, overlaps both the [[Superior Temporal Gyrus]] (blue) and the [[Middle Temporal Gyrus]] (red) regions in another atlas (the same as in the previous images) to differing degrees. From [[CZ:Ref:Bohland 2009 The Brain Atlas Concordance Problem Quantitative Comparison of Anatomical Parcellations|Bohland et al., 2009]].}} | ||
A '''brain atlas''' is a reference work in which [[brain anatomy|brain structures]] are placed in a [[coordinate system]] that is standardized for a given [[species (biology)|species]] or [[developmental stage]]. Several [[neuroimaging]] techniques can be used for brain atlas construction, e.g. from [[histology]] or — increasingly common — from [[Magnetic Resonance Imaging|MRI scans]] of one or many or entire [[brain]]s or [[cerebral hemisphere]]s. Much like [[geographic | A '''brain atlas''' is an [[anatomical atlas]] of the [[brain]], i.e. a reference work in which [[brain anatomy|brain structures]] are placed in a [[coordinate system]] that is standardized for a given [[species (biology)|species]] or [[developmental stage]]. Several [[neuroimaging]] techniques can be used to obtain the images for brain atlas construction, e.g. from [[histology]] or — increasingly common — from [[Magnetic Resonance Imaging|MRI scans]] of one or many or entire [[brain]]s or [[cerebral hemisphere]]s. | ||
Apart from providing a common coordinate system for imaging data obtained from different sources (e.g. from a number of patients), brain atlases can be [[image segmentation|partitioned]] and labeled, thus providing for atlas-based segmentation of images and for the construction of [[brain maps]]. Much like [[map (geography)|geographic maps]] can be populated with information about [[physical geography|physical]], [[political geography|political]], [[economic geography|economic]] or [[environmental geography|environmental]] aspects of a [[region of interest]], [[brain maps]] may include information about [[neurogenetics|genetic]], [[brain development|developmental]], [[brain evolution|evolutionary]] or [[neurophysiology|physiological]] or [[brain disease|pathological]] aspects of the brain. |
Revision as of 08:55, 3 December 2009
A brain atlas is an anatomical atlas of the brain, i.e. a reference work in which brain structures are placed in a coordinate system that is standardized for a given species or developmental stage. Several neuroimaging techniques can be used to obtain the images for brain atlas construction, e.g. from histology or — increasingly common — from MRI scans of one or many or entire brains or cerebral hemispheres.
Apart from providing a common coordinate system for imaging data obtained from different sources (e.g. from a number of patients), brain atlases can be partitioned and labeled, thus providing for atlas-based segmentation of images and for the construction of brain maps. Much like geographic maps can be populated with information about physical, political, economic or environmental aspects of a region of interest, brain maps may include information about genetic, developmental, evolutionary or physiological or pathological aspects of the brain.