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Surgical and Radiologic Anatomy
Published in: Surgical and Radiologic Anatomy 3/2005

01-08-2005 | Radiologic Anatomy

Sexual dimorphism and handedness in the human corpus callosum based on magnetic resonance imaging

Authors: M. C. Tuncer, E. S. Hatipoğlu, M. Özateş

Published in: Surgical and Radiologic Anatomy | Issue 3/2005

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Abstract

The corpus callosum (CC) is a major anatomical and functional commissure linking the two cerebral hemispheres. With MR imaging in the sagittal plane, the corpus callosum can be depicted in great detail. Mid-sagittal magnetic resonance images of 80 normal individuals were analyzed to assess whether or not the morphology of the corpus callosum and its parts are related to sex and handedness. The subjects were 40 males (20 right-handers and 20 left-handers) and 40 females (20 right-handers and 20 left-handers). The midsagittal area of the corpus callosum was divided into seven sub-areas using Witelson’s method. The most striking morphological changes concerned left-handers, who had larger areas of the anterior body, posterior body and isthmus than right-handers. In addition, right-handed males had larger rostrums and isthmuses than right-handed females. These significantly increased areas were related to handedness in right-handed males. However, left-handed males had larger anterior and posterior bodies than right-handed males. In contrast, there was no significant difference between left-handers and right-handers in females. The areas of the rostrum and posterior body of the corpus callosum increased significantly with sex in males. Moreover, there were no significant age-related changes in the total corpus callosum and sub-areas of the corpus callosum. In conclusion, these anatomical changes in corpus callosum morphology require taking the sexual definition and dominant handedness into consideration.
Literature
1.
Bell AD, Variend S (1985) Failure to demonstrate sexual dimorphism of the corpus callosum in childhood. J Anat 143: 143–147
2.
Berrebi AS, Fitch RH, Ralphe DL, Denenberger JO, Friedrich VL, Denenberg VH (1998) Corpus calllosum: region-specific effects of sex, early experience and age. Brain Res 438: 216–224CrossRef
3.
Bryden MP (1982) Laterality: functional asymmetry in the intact brain. Academic, New York
4.
Byne W, Bleier R, Houston L (1988) Variations in human corpus callosum do not predict gender: a study using magnetic resonance imaging. Behav Neurosci 102: 222–227CrossRef
5.
Clarke S, Kraftsik R, Van der Loos H, Innocenti GM (1989) Forms and measures of adult and developing human corpus callosum. J Neuropathol Exp Neurol 280: 213–230
6.
Cowell PE, Kertezs A, Denenberg VH (1993) Multiple dimensions of handedness and the human corpus callosum. Neurology 43: 2353–2357
7.
de Lacoste-Utamsing MC, Holliway RL (1982) Sexual dimorphism in the human corpus callosum. Science 216: 1431–1432PubMed
8.
de Lacoste MC, Kirkpatrick JB, Ross ED (1985) Tomography of the human corpus callosum. J Neuropathol Exp Neurol 44: 578–591PubMed
9.
de Lacoste MC, Holloway RL, Woodward DJ (1986) Sex differences in the fetal human corpus callosum. Hum Neurobiol 5: 93–96PubMed
10.
Demeter S, Ringo JL, Doty RW (1988) Morphometric analysis of the human corpus callosum and anterior commissure. Hum Neurobiol 6: 219–226
11.
Dubb A, Gur R, Avants B, Gee J (2003) Characterization of sexual dimorphism in the human corpus callosum. Neuroimage 20: 512–519CrossRef
12.
Georgy BA, Hesselink JR, Jernigan TL (1993) MR imaging of the corpus callosum. AJR Am Roentgenol 160: 949–955
13.
Giedd JN, Rumsey JM, Castellanos FX, Rajakapse JC, Kaysen D, Vaituzis AC, Vauss AC, Hamburger SD, Rapoport JL (1996) A quantitative morphology of the corpus callosum in attention defecit hyperactivity disorder. Dev Brain Res 91: 274–280CrossRef
14.
Habib M, Gayraud D, Oliva A, Regis C, Salamon G, Khalil R (1991) Effects of handedness and sex on the morphology of the corpus callosum: a study with brain magnetic resonance imaging. Brain Cogn 16: 41–61CrossRef
15.
Heilman KM, Valenstein E (1985) Clinical neuropsychology, 2nd edn. Oxford University Pres, New York
16.
Holloway RL, de Lacoste MC (1986) Sexual dimorphism in the corpus callosum: an extension and replication study. Human Neurobiol 5: 87–91
17.
Kertesz A, Polk M, Howell J, Black SE (1987) Cerebral dominance, sex and callosal size in MRI. Neurology 37: 1385–1388
18.
Myers RE, Sperry RW (1958) Interhemispheric comminication through the corpus callosum. AMA Arch Nuerol Psychiatry 80: 298–303
19.
Nasrallah HA (1985) The unintergrated right cerebral hemispheric consciousness as alien intruder. Compr Psychiatry 26: 273–282CrossRef
20.
Nasrallah HA, Andreasen NC, Coffman JA, Olson SC, Dunn VD, Ehrhardt JC, Chapman SM (1986) A controlled magnetic resonance imaging study of corpus callosum thickness in schizophrenia. Biol Psychiatry 21: 274–282CrossRef
22.
Pandya DN, Seltzer B (1986) The topography of commissural fibers. Neurol. Neurobiol 17: 47–73
21.
Pandya DN, Karol EA, Heılbroon D (1971) The topographical distribution of the interhemispheric projections in the corpus callosum of the rhesus monkey. Brain Res 32: 31–43CrossRef
23.
Petty DJ, Gee JC (2002) Sexual dimorphism in the corpus callosum: a characterization of local size variation and a classification driven approach to morphometry. Neuroimage 17: 1504–1511CrossRef
24.
Potter SM, Graves RE (1988) Is interhemispheric transfer related to handedness and gender? Neurosychologia 26: 319–325CrossRef
25.
Raine A, Harrison GN, Reynolds GP, Sheard C, Cooper JE, Medley I (1990) Structural and functional characteristics of the corpus callosum in schizophrenics, psychiatric controls and normal controls. Arch Gen Psychiatry 47: 1060–1064
26.
Rakic P, Yakovlev PI (1978) Devolopment of the corpus callosum and cavum septi in man. J Comp Neurol 26: 100–104
27.
Steinmetz H, Jancke L, Kleincshmidt A, Schlaug, Volkmann J, Huang Y (1992) Sex but no hand difference in the isthmus of the corpus callosum. Neurology 42: 749–752PubMed
28.
Wang ZP, Osawa M, Fukuyama Y (1995) Morphometric study of the corpus callosum in Fukuyama type congenital muscular dystropy by magnetic resonans imaging. Brain Dev 17: 104–110CrossRef
29.
Witelson SF (1983) The corpus callosum is larger in left handers. Soc Neurosci Abstr 9: 269.5
30.
Witelson SF (1985) The brain connection: the corpus callosum is larger in the left-handers. Science 229: 665–668
31.
Witelson SF (1989) Hand and sex differences in the isthmus and genu of the human callosum. A postmortem morphological study. Brain 112: 799–835PubMed
32.
Witelson S (1991) Neural sexual mosaicism: sexual differentiation of the human temporoparietal region for functional asymmetry: neuroanatomical evidence. Psychoneuroendocrinology 16: 131–153CrossRef
33.
Witelson SF, Kigar DL (1988) Anatomical development of corpus callosum in humans: a review with reference to sex and cognition. In: Molofese DL. Segalowitz SJ (eds) Brain lateralization in children: Development implications. Guilford Press, New York, pp 35–37
34.
Witelson S, Goldsmith C (1991) The relationship of hand preference to the anatomy of the corpus callosum in men. Brain Res 545: 175–182CrossRef
Metadata
Title
Sexual dimorphism and handedness in the human corpus callosum based on magnetic resonance imaging
Authors
M. C. Tuncer
E. S. Hatipoğlu
M. Özateş
Publication date
01-08-2005
Publisher
Springer-Verlag
Published in
Surgical and Radiologic Anatomy / Issue 3/2005
Print ISSN: 0930-1038
Electronic ISSN: 1279-8517
DOI
https://doi.org/10.1007/s00276-004-0308-1

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