Gender Differences in Cerebral Blood Flow as a Function of Cognitive State with PET

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Gender Differences in Cerebral Blood Flow as a Function of Cognitive State with PET

Giuseppe Esposito, John D. Van Horn, Daniel R. Weinberger and Karen Faith Berman

Clinical Brain Disorders Branch, Intramural Research Program, National Institute of Mental Health, Washington, D. C.

Correspondence: For correspondence or reprints contact: Giuseppe Esposito, MD, National Institutes of Health Building 10, Room 4N-317, 9000 Rockville Pike, Bethesda, MD 20892.

ABSTRACT

This study explored the role of cognitive states in gender-baseddifferences in brain function. Methods: We used the ¹⁵O-waterbolus method to measure cerebral blood flow (CBF) in 14 youngnormal volunteers with PET. Each subject was scanned six times,three during different neuropsychological tasks linked to theprefrontal cortex and three others during customized sensorimotorcontrol tasks. The prefrontal tasks were the Wisconsin CardSorting (WCS) Test, Delayed Alternation task (DA) and SpatialDelayed Response task (DR). Results: A significant main influenceof sex on global CBF (ml/min/100g) was seen, with higher valuesin women, as viewed across all six conditions (means: 60.9 versus53.2, ANOVA F = 9.35, p < 0.01). Post-hoc contrasts, however,showed that this finding was not uniform in all conditions.Differences between men and women were seen during performanceof the frontal lobe tasks, but not during the sensorimotor controltasks. Even within the three frontal lobe tasks, results tendedto vary: the differences between the sexes were most significantduring the DA and just reached traditional levels of significanceduring the WCS. Therefore, if we had utilized a single taskcondition to determine whether men and women have differentglobal CBFs, disparate conclusions would have been reached dependingupon the task chosen. Conclusion: Although clear sex differencesin global CBF can be demonstrated, the cognitive state of thesubjects must be controlled and considered when interpretingthe differences. Also, variations in the cognitive state mightexplain some of the discrepancies in gender studies in the rCBFand cerebral glucose metabolism literature.

Key Words: cerebral blood flow • PET • cognitive stimulation • gender differences • frontal lobe

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