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: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}} | *{{CZ:Ref:Gregório 2009 Polymorphisms in genes involved in neurodevelopment may be associated with altered brain morphology in schizophrenia: Preliminary evidence}} | ||
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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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| 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 |
Latest revision as of 14:11, 1 May 2010
- Please sort and annotate in a user-friendly manner. For formatting, consider using automated reference wikification.
- Lefèvre J, Mangin JF (2010). "A reaction-diffusion model of human brain development". PLoS Comput Biol 6 (4): e1000749. DOI:10.1371/journal.pcbi.1000749. PMID 20421989. PMC PMC2858670. Research Blogging. [e]
- 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.
- White T, Su S, Schmidt M, Kao CY, Sapiro G (2009). "The development of gyrification in childhood and adolescence". Brain Cogn (in press). DOI:10.1016/j.bandc.2009.10.009. PMID 19942335. Research Blogging. [e]
- Gregório, S.P.; P.C. Sallet & K.A. Do et al. (2009), "Polymorphisms in genes involved in neurodevelopment may be associated with altered brain morphology in schizophrenia: Preliminary evidence", Psychiatry Research 165 (1-2): 1–9, DOI:10.1016/j.psychres.2007.08.011 [e]
- 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.
- Raghanti, Mary Ann; Cheryl D. Stimpson & Jennifer L. Marcinkiewicz et al. (2008), "Differences in Cortical Serotonergic Innervation among Humans, Chimpanzees, and Macaque Monkeys: A Comparative Study", Cerebral Cortex 18 (3): 584-597, DOI:10.1093/cercor/bhm089
- Fischl, Bruce; Niranjini Rajendran & Evelina Busa et al. (2008), "Cortical Folding Patterns and Predicting Cytoarchitecture", Cerebral Cortex 18 (8): 1973-1980, DOI:10.1093/cercor/bhm225
- Afif A, Bouvier R, Buenerd A, Trouillas J, Mertens P (2007). "Development of the human fetal insular cortex: study of the gyration from 13 to 28 gestational weeks.". Brain Struct Funct 212 (3-4): 335-46. DOI:10.1007/s00429-007-0161-1. PMID 17962979. Research Blogging. [e]
- A histological study with a good overview over the history of the study of the insula.
- Régis, J.; Mangin, J.F.; Ochiai, T.; Frouin, V.; Rivière, D.; Cachia, A.; Tamura, M.; Samson, Y. (2005), "“Sulcal Root” Generic Model: A Hypothesis to Overcome the Variability of the Human Cortex Folding Patterns", Neurol Med Chir 45 (1): 1–17, DOI:10.2176/nmc.45.1
- Kippenhan, J. Shane; Olsen, Rosanna K.; Mervis, Carolyn B.; Morris, Colleen A.; Kohn, Philip; Meyer-lindenberg, Andreas; Berman, Karen Faith (2005), "Genetic Contributions to Human Gyrification: Sulcal Morphometry in Williams Syndrome", Journal of Neuroscience 25 (34): 7840–7846, DOI:10.1523/JNEUROSCI.1722-05.2005
- Hof, P.R.; R. Chanis & L. Marino (2005), "Cortical Complexity in Cetacean Brains", Anatomical Record Part A: Discoveries in Molecular Cellular and Evolutionary Biology 287 (1): 1142, DOI:10.1002/ar.a.20258
- Hassiotis M, Paxinos G, Ashwell KW (2003). "The anatomy of the cerebral cortex of the echidna (Tachyglossus aculeatus)". Comp Biochem Physiol A Mol Integr Physiol 136 (4): 827-50. DOI:10.1016/S1095-6433(03)00166-1. PMID 14667848. Research Blogging. [e]
- Keller, R.; L.A. Davidson & D.R. Shook (2003), "How we are shaped: the biomechanics of gastrulation", Differentiation 71 (3): 171–205, DOI:10.1046/j.1432-0436.2003.710301.x
- Chenn A, Walsh CA (2002). "Regulation of cerebral cortical size by control of cell cycle exit in neural precursors". Science 297 (5580): 365-9. DOI:10.1126/science.1074192. PMID 12130776. Research Blogging. [e]
- 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.
- Lohmann, Gabriele; Von Cramon, D. Yves; Steinmetz, Helmuth (1999), "Sulcal Variability of Twins", Cerebral Cortex 9 (7): 754–763, DOI:10.1093/cercor/9.7.754
- Kornack, David R. & Pasko Rakic (1998), "Changes in cell-cycle kinetics during the development and evolution of primate neocortex", Proceedings of the National Academy of Sciences of the United States of America 95 (3): 1242–1246, DOI:10.1073/pnas.95.3.1242 [e]
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."
- Kennedy, D.N.; N. Lange & N. Makris et al. (1998), "Gyri of the human neocortex: an MRI-based analysis of volume and variance", Cerebral Cortex 8 (4): 372–384, DOI:10.1093/cercor/8.4.372 [e]
- Biondi, A.; H. Nogueira & D. Dormont et al. (1998), "Are the brains of monozygotic twins similar? A three-dimensional MR study", Am J Neuroradiol 19 (7): 1361–1367
- Bartley AJ, Jones DW, Weinberger DR (1997). "Genetic variability of human brain size and cortical gyral patterns". Brain 120 ( Pt 2): 257-69. PMID 9117373. [e]
- Armstrong, Este; Schleicher, Axel; Omran, Heyder; Curtis, Maria; Zilles, Karl (1995), "The Ontogeny of Human Gyrification", Cerebral Cortex 5 (1): 56–63, DOI:10.1093/cercor/5.1.56
- Krubitzer, L. (1995), "The organization of neocortex in mammals: are species differences really so different?", Trends in Neurosciences 18 (9): 408–417, DOI:10.1016/0166-2236(95)93938-T
- Raymond, A. A.; D. R. Fish & S. M. Sisodiya et al. (1995), "Abnormalities of gyration, heterotopias, tuberous sclerosis, focal cortical dysplasia, microdysgenesis, dysembryoplastic neuroepithelial tumour and dysgenesis of the archicortex in epilepsy: Clinical, EEG and neuroimaging features in 100 adult patients", Brain 118 (3): 629–629, DOI:10.1093/brain/118.3.629 [e]
- Griffin, L.D. (1994), "The intrinsic geometry of the cerebral cortex", J Theor Biol 166 (3): 261–273, DOI:10.1006/jtbi.1994.1024 [e]
- Duffield, D.W.; J.T. Haldiman & W.G. Henk (1992), "Surface Morphology of the Forebrain of the Bowhead Whale, Balaena Mysticetus", Marine Mammal Science 8 (4): 354–378, DOI:10.1111/j.1748-7692.1992.tb00051.x
- Armstrong, Este; Curtis, Maria; Buxhoeveden, Daniel P.; Fregoe, Carolyn; Zilles, Karl; Casanova, Manuel F.; McCarthy, William F. (1991), "Cortical Gyrification in the Rhesus Monkey: A Test of the Mechanical Folding Hypothesis", Cerebral Cortex 1 (5): 426–432, DOI:10.1093/cercor/1.5.426
- Ferrer, I.; M. Hernandez-Marti & E. Bernet et al. (1989), "Formation and growth of the cerebral convolutions. II. Cell death in the gyrus suprasylvius and …", Brain Res Dev Brain Res 45 (2): 303–308, DOI:10.1016/0165-3806(89)90049-7 [e]
- Zilles, K.; E. Armstrong & K.H. Moser et al. (1989), "Gyrification in the cerebral cortex of primates", Brain behavior and evolution 34 (3): 143–150, DOI:10.1159/000116500 [e]
- Ferrer, I.; M. Hernandez-Marti & E. Bernet et al. (1988), "Formation and growth of the cerebral convolutions. I. Postnatal development of the median-suprasylvian gyrus and adjoining sulci in the cat.", J Anat 160: 89–100
- Zilles, K.; E. Armstrong & A. Schleicher et al. (1988), "The human pattern of gyrification in the cerebral cortex", Anatomy and Embryology 179 (2): 173–179, DOI:10.1007/BF00304699 [e]
- Dan, R.; S. Jequier & A.M. O'Gorman (1986), "Normal and abnormal gyral development of the premature infant on transfontanelle ultrasound", Ann Radiol (Paris) 29 (8): 674–80
- One of the few non-invasive in vivo studies of gyrification prior to the wide-spread adoption of MRI.
- León, G.A. (1972), "Observations on cerebral and cerebellar microgyria", Acta Neuropathologica 20 (4): 278–287, DOI:10.1007/BF00691746
- Welker, W.I. & G.B. Campos (1963), "Physiological significance of sulci in somatic sensory cerebral cortex in mammals of the family procyonidae", The Journal of Comparative Neurology 120 (1): 19–36, DOI:10.1002/cne.901200103 [e]
- Barron, D.H. (1950), "An experimental analysis of some factors involved in the development of the fissure pattern of the cerebral cortex", Journal of Experimental Zoology 113 (3): 553–581, DOI:10.1002/jez.1401130304 [e]
- Harman, P.J. (1947), "On the significance of fissuration of the isocortex", The Journal of Comparative Neurology 87 (2): 161–168, DOI:10.1002/cne.900870206 [e]
- Connolly, C.J. (1936), "The fissural pattern of the Primate brain", Am. J. Phys. Anthropol 21: 301–422, DOI:10.1002/ajpa.1330210322 [e]
- Southard, E. E. (1915), "On the topographic distribution of cortex lesions and anomalies in dementia praecox with some account of their functional significance", Am. J. Insanity 71: 603–671
- Köhler, A. (1891), "Ueber die Methoden, die Lage und Richtung der Hirnwindungen und- Furchen an der Aussenfläche des Kopfes zu bestimmen. Beschreibung eines neuen „Craniencephalometers”", Langenbeck's Archives of Surgery 32 (5): 567–581, DOI:10.1007/BF02817717 [e]
- Owen, R. (1866-1868), On the anatomy of vertebrates. Vol. 3, Mammals, Longmans Green and Co., London.
- Baillarger, J. (1845), "De l’étendue de la surface du cerveau", Gazette des Hôpitaux 18: 179