Brain Gyrification and its Significance: Difference between revisions
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[[Image: Introphoto.png|thumb|350px|right|Comparsion of Human, Macaque, and Mouse Brains and Extent of Gyrification. | [[Image: Introphoto.png|thumb|350px|right|Comparsion of Human, Macaque, and Mouse Brains and Extent of Gyrification. | ||
Credit to J. Horton.]] | Credit to J. Horton.]] | ||
<sup>[[Brain_Gyrification_and_its_Significance#References|[1]]]</sup> | |||
Gyrification in the brain, also known as convolution, is process of cortical folding that leads to the wrinkle like appearance of mammal brains. It is the basis for the presence of gyri and sulci (hills and valleys) in cerebral cortex. The extent of gyrification of brains is highly implicated as being positively related to species intelligence. The basic idea is that gyrification allows for (or is a result of) greater surface area of cortical neurons within the same skull volume. However the exact mechanism by which this occurs, its true significance, and the implications of differences within species is not conclusively known or explored. With this in mind, this wiki seeks to explore the literature on the chemical or physical cause/mechanism of gyrification, differences in anatomy across species and within species, and possible theories of significance that could be derived based on previous findings. | Gyrification in the brain, also known as convolution, is process of cortical folding that leads to the wrinkle like appearance of mammal brains. It is the basis for the presence of gyri and sulci (hills and valleys) in cerebral cortex. The extent of gyrification of brains is highly implicated as being positively related to species intelligence. The basic idea is that gyrification allows for (or is a result of) greater surface area of cortical neurons within the same skull volume. However the exact mechanism by which this occurs, its true significance, and the implications of differences within species is not conclusively known or explored. With this in mind, this wiki seeks to explore the literature on the chemical or physical cause/mechanism of gyrification, differences in anatomy across species and within species, and possible theories of significance that could be derived based on previous findings. | ||
=Classification and Medical | =Classification and Medical Terminology= | ||
==General Terms== | |||
[[Image: Lissencephaly-Image.jpg|thumb|350px| right| Lissencephaly vs. Normal Brain. Source: http://www.hxbenefit.com/lissencephaly.html]] | [[Image: Lissencephaly-Image.jpg|thumb|350px| right| Lissencephaly vs. Normal Brain. Source: http://www.hxbenefit.com/lissencephaly.html]] | ||
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[[Image: clinicalbrain.png|thumb|300px|right| Left to Right: normal, polymicrogyria, lissencephaly. Credit: Lefèvre and Mangin, 2010l]] | [[Image: clinicalbrain.png|thumb|300px|right| Left to Right: normal, polymicrogyria, lissencephaly. Credit: Lefèvre and Mangin, 2010l]] | ||
==Nuanced Convolutions== | |||
=Relation to Species Intelligence= | =Relation to Species Intelligence= | ||
Revision as of 06:42, 8 June 2013

Gyrification in the brain, also known as convolution, is process of cortical folding that leads to the wrinkle like appearance of mammal brains. It is the basis for the presence of gyri and sulci (hills and valleys) in cerebral cortex. The extent of gyrification of brains is highly implicated as being positively related to species intelligence. The basic idea is that gyrification allows for (or is a result of) greater surface area of cortical neurons within the same skull volume. However the exact mechanism by which this occurs, its true significance, and the implications of differences within species is not conclusively known or explored. With this in mind, this wiki seeks to explore the literature on the chemical or physical cause/mechanism of gyrification, differences in anatomy across species and within species, and possible theories of significance that could be derived based on previous findings.
Classification and Medical Terminology
General Terms


Nuanced Convolutions
Relation to Species Intelligence
Brain Size to Body Weight Ratios Across Species


Gyrification Across Species
