Surface mapping: Difference between revisions

From Citizendium
Jump to navigation Jump to search
imported>Daniel Mietchen
(started)
 
mNo edit summary
Line 1: Line 1:
{{subpages}}
{{subpages}}
<!-- Text is transcluded from the BASEPAGENAME/Definition subpage-->
<!-- Text is transcluded from the BASEPAGENAME/Definition subpage-->
{{Image|Surface mapping - altered network topology in early blind subjects.png|right|350px|Surface mapping of the results of a [[fibre tracking]] study in which the [[topology]] of the [[cortical connectivity]] network in early [[blindness|blind]] subjects was compared with that in [[normal control]]s. The [[nerve fibre]]s being tracked are actually situated below the [[cortical surface]], but the [[soma|cell bodies]] of the [[neuron]]s in these fibres are situated in the [[cortical gray matter]], which exhibits regional functional specialization. Mapping the results on the cortical surface provides a convenient way for neuroscientists to put them into the perspective of related findings, which are often depicted as correlations between function and location. Blue: regions with decreases in both the [[degree of connectivity]] and the [[global efficiency]] and with an increased [[characteristic path length]] in the early blind; Red: regions with increased degree of connectivity and global efficiency in the early blind; Top: left [[brain hemisphere|hemisphere]] (LH); Bottom: right hemisphere (RH). Left: [[Lateral]] view; right: [[medial]] view.}}
{{Image|Surface mapping - altered network topology in early blind subjects.png|right|350px|Surface mapping of the results of a [[fibre tracking]] study in which the [[topology]] of the [[cortical connectivity]] network in early [[blindness|blind]] subjects was compared with that in [[normal control]]s. The [[nerve fibre]]s being tracked are actually situated below the [[cortical surface]], but the [[soma|cell bodies]] of the [[neuron]]s in these fibres are situated in the [[cortical gray matter]], which exhibits regional functional specialization. Mapping the results on the cortical surface provides a convenient way for neuroscientists to put them into the perspective of related findings, which are often depicted as correlations between function and location. Blue: regions with decreases in both the [[degree of connectivity]] and the [[global efficiency]] and with an increased [[characteristic path length]] in the early blind; Red: regions with increased degree of connectivity and global efficiency in the early blind; Top: left brain hemisphere (LH); Bottom: right hemisphere (RH). Left: [[Lateral]] view; right: [[medial]] view.}}

Revision as of 09:55, 20 February 2024

Surface mapping [r]: The projection of one surface onto another. [e]

This article contains just a definition and optionally other subpages (such as a list of related articles), but no metadata. Create the metadata page if you want to expand this into a full article.
(CC) Image: Shu et al., 2009
Surface mapping of the results of a fibre tracking study in which the topology of the cortical connectivity network in early blind subjects was compared with that in normal controls. The nerve fibres being tracked are actually situated below the cortical surface, but the cell bodies of the neurons in these fibres are situated in the cortical gray matter, which exhibits regional functional specialization. Mapping the results on the cortical surface provides a convenient way for neuroscientists to put them into the perspective of related findings, which are often depicted as correlations between function and location. Blue: regions with decreases in both the degree of connectivity and the global efficiency and with an increased characteristic path length in the early blind; Red: regions with increased degree of connectivity and global efficiency in the early blind; Top: left brain hemisphere (LH); Bottom: right hemisphere (RH). Left: Lateral view; right: medial view.