Size Matters: Cerebral Volume Influences Sex Differences in Neuroanatomy

Christiana M. Leonard¹, Stephen Towler¹, Suzanne Welcome², Laura K. Halderman², Ron Otto³, Mark A. Eckert⁴ and Christine Chiarello²

¹ University of Florida, Gainesville, FL 32601, USA, ² University of California, ³ Diagnostic Imaging Center, Riverside, CA 92517, USA, ⁴ Medical University of South Carolina, Charleston, SC 29403, USA

Address correspondence to Christiana M. Leonard, PhD, PO Box 100244, Department of Neuroscience, McKnight Brain Institute, University of Florida, Gainesville FL 32610, USA. Email: leonard{at}mbi.ufl.edu.

Biological and behavioral differences between the sexes rangefrom obvious to subtle or nonexistent. Neuroanatomical differencesare particularly controversial, perhaps due to the implicationthat they might account for behavioral differences. In thissample of 200 men and women, large effect sizes (Cohen's d >0.8) were found for sex differences in total cerebral gray andwhite matter, cerebellum, and gray matter proportion (womenhad a higher proportion of gray matter). The only one of thesesex differences that survived adjustment for the effect of cerebralvolume was gray matter proportion. Individual differences incerebral volume accounted for 21% of the difference in graymatter proportion, while sex accounted for an additional 4%.The relative size of the corpus callosum was 5% larger in women,but this difference was completely explained by a negative relationshipbetween relative callosal size and cerebral volume. In agreementwith Jancke et al., individuals with higher cerebral volumetended to have smaller corpora callosa. There were few sex differencesin the size of structures in Broca's and Wernicke's area. Weconclude that individual differences in brain volume, in bothmen and women, account for apparent sex differences in relativesize.

Key Words: asymmetry • corpus callosum • gray matter • human • planum temporale

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Size Matters: Cerebral Volume Influences Sex Differences in Neuroanatomy