Gyrification/Bibliography: Difference between revisions

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*{{CZ:Ref:Lefèvre 2010 A reaction-diffusion model of human brain development}}
*{{CZ:Ref:White 2009 The development of gyrification in childhood and adolescence}}
*{{CZ:Ref:Gregório 2009 Polymorphisms in genes involved in neurodevelopment may be associated with altered brain morphology in schizophrenia: Preliminary evidence}}
*{{citation
*{{citation
  | last1 = Raghanti | first1 = Mary Ann
  | last1 = Raghanti | first1 = Mary Ann
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  | pmid = 18079129
  | pmid = 18079129
}}
}}
*{{CZ:Ref:Afif 2007 Development of the human fetal insular cortex: study of the gyration from 13 to 28 gestational weeks}}
*{{citation
*{{citation
  | author = Régis, J.; Mangin, J.F.; Ochiai, T.; Frouin, V.; Rivière, D.; Cachia, A.; Tamura, M.; Samson, Y.
  | author = Régis, J.; Mangin, J.F.; Ochiai, T.; Frouin, V.; Rivière, D.; Cachia, A.; Tamura, M.; Samson, Y.
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  | year = 2005
  | year = 2005
  | title = Cortical Complexity in Cetacean Brains
  | title = Cortical Complexity in Cetacean Brains
  | journal = Anatomical Record Part a Discoveries in Molecular Cellular and Evolutionary Biology
  | journal = Anatomical Record Part A: Discoveries in Molecular Cellular and Evolutionary Biology
  | volume = 287
  | volume = 287
  | issue = 1
  | issue = 1
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  | url = http://www3.interscience.wiley.com/journal/112098743/abstract
  | url = http://www3.interscience.wiley.com/journal/112098743/abstract
}}
}}
*{{CZ:Ref:Hassiotis 2003 The anatomy of the cerebral cortex of the echidna (Tachyglossus aculeatus)}}
*{{citation
*{{citation
  | last1 = Keller | first1 = R.
  | last1 = Keller | first1 = R.
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  | url = http://www.ncbi.nlm.nih.gov/pubmed/12694202
  | url = http://www.ncbi.nlm.nih.gov/pubmed/12694202
}}
}}
*{{CZ:Ref:Chenn 2002 Regulation of cerebral cortical size by control of cell cycle exit in neural precursors}}
*{{citation
*{{citation
  | author = Lohmann, Gabriele; Von Cramon, D. Yves; Steinmetz, Helmuth
  | author = Lohmann, Gabriele; Von Cramon, D. Yves; Steinmetz, Helmuth
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*{{:CZ:Ref:DOI:10.1073/pnas.95.3.1242}}
*{{:CZ:Ref:DOI:10.1073/pnas.95.3.1242}}
:{{:CZ:Ref:DOI:10.1073/pnas.95.3.1242/Quote1}}
:{{:CZ:Ref:DOI:10.1073/pnas.95.3.1242/Quote1}}
*{{:CZ:Ref:DOI:10.1093/cercor/8.4.372}}
*{{citation
*{{citation
  | last1 = Biondi | first1 = A.
  | last1 = Biondi | first1 = A.
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  | url = http://www.ajnr.org/cgi/content/abstract/19/7/1361
  | url = http://www.ajnr.org/cgi/content/abstract/19/7/1361
}}
}}
*{{CZ:Ref:Bartley 1997 Genetic variability of human brain size and cortical gyral patterns}}
*{{citation
*{{citation
  | author = Armstrong, Este; Schleicher, Axel; Omran, Heyder; Curtis, Maria; Zilles, Karl
  | author = Armstrong, Este; Schleicher, Axel; Omran, Heyder; Curtis, Maria; Zilles, Karl
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  | url = http://linkinghub.elsevier.com/retrieve/pii/016622369593938T
  | url = http://linkinghub.elsevier.com/retrieve/pii/016622369593938T
}}
}}
*{{CZ:Ref:Raymond 1995 Abnormalities of gyration, heterotopias, tuberous sclerosis, focal cortical dysplasia, microdysgenesis, dysembryoplastic neuroepithelial tumour and dysgenesis of the archicortex in epilepsy}}
*{{:CZ:Ref:DOI:10.1006/jtbi.1994.1024}}
*{{citation
*{{citation
  | last1 = Duffield | first1 = D.W.
  | last1 = Duffield | first1 = D.W.
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  | pmid = 1822750
  | pmid = 1822750
}}
}}
*{{:CZ:Ref:DOI:10.1016/0165-3806(89)90049-7}}
*{{:CZ:Ref:DOI:10.1159/000116500}}
*{{:CZ:Ref:PMC1262052}}
*{{:CZ:Ref:DOI:10.1007/BF00304699}}
*{{citation
| last1 = Dan | first1 = R.
| last2 = Jequier | first2 = S.
| last3 = O'Gorman | first3 = A.M.
| year = 1986
| title = Normal and abnormal gyral development of the premature infant on transfontanelle ultrasound
| journal = Ann Radiol (Paris)
| volume = 29
| issue = 8
| pages = 674–80
| url = http://www.ncbi.nlm.nih.gov/pubmed/3551754
}}
:One of the few non-invasive in vivo studies of gyrification prior to the wide-spread adoption of [[Magnetic resonance imaging|MRI]].
*{{citation
| last = León | first =  G.A.
| year = 1972
| title = Observations on cerebral and cerebellar microgyria
| journal = Acta Neuropathologica
| volume = 20
| issue = 4
| pages = 278–287
| doi = 10.1007/BF00691746
| url = http://www.springerlink.com/index/X84181M12T635626.pdf
}}
*{{CZ:Ref:Welker 1963 Physiological significance of sulci in somatic sensory cerebral cortex in mammals of the family procyonidae}}
*{{CZ:Ref:Barron 1950 An experimental analysis of some factors involved in the development of the fissure pattern of the cerebral cortex}}
*{{:CZ:Ref:DOI:10.1002/cne.900870206}}
*{{:CZ:Ref:DOI:10.1002/ajpa.1330210322}}
*{{citation
*{{citation
  | author = Southard, E. E.  
  | author = Southard, E. E.  
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  | date = 1915
  | date = 1915
}}
}}
*{{:CZ:Ref:DOI:10.1007/BF02817717}}
*Owen, R. (1866-1868), [http://openlibrary.org/details/onanatomyofverte03owen On the anatomy of vertebrates. Vol. 3, Mammals], Longmans Green and Co., London.
*{{citation
*{{citation
  | author = Baillarger, J.
  | author = Baillarger, J.

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A list of key readings about Gyrification.
Please sort and annotate in a user-friendly manner. For formatting, consider using automated reference wikification.
Based on modeling gyrification as a reaction-diffusion process, the authors provide a mechanism — compatible with the sulcal roots hypothesis — by which the folding process of the cerebral cortex can be explained, along with its anatomical variability and common malformations like polymicrogyria and lissencephaly.
Provides an analysis of correlations between 10 volume-based brain morphometric measures and 32 single-nucleotide polymorphisms in 25 schizophrenic patients, tentatively identifying RELN, the gene encoding reelin, as possibly involved in ventricular enlargement, and PCDH12, the gene encoding protocadherin 12, as a candidate for genetic invovlvement in gyrification.
A histological study with a good overview over the history of the study of the insula.
Demonstrates that neural precursor cells in ß-catenin-transgenic mice undergo more cell divisions before finally differentiating. This resulted in an increase of cortical surface area without an accompanying change in cortical thickness.

In comparison to rodents, "...substantially more total rounds of cell division elapsed during the prolonged neurogenetic period of the monkey cortex, providing a basis for increased cell production."

One of the few non-invasive in vivo studies of gyrification prior to the wide-spread adoption of MRI.