A curvilinear relationship between testosterone and spatial cognition in humans: Possible influence of hand preference
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[1] W. M. Yen. Independence of Hand Preference and Sex-Linked Genetic Effects on Spatial Performance , 1975, Perceptual and motor skills.
[2] E. E. Maccoby,et al. Neonatal sex-steroid hormones and cognitive abilities at six years. , 1988, Developmental psychobiology.
[3] R. Deyo,et al. ANDROGENS AND SPATIAL ABILITY: FAILURE TO FIND A RELATIONSHIP BETWEEN TESTOSTERONE AND ABILITY MEASURES , 1987 .
[4] E. J. Mackenberg,et al. Morning-to-afternoon changes in cognitive performances and in the electroencephalogram. , 1974, Journal of educational psychology.
[5] G. Borich,et al. Convergent and Discriminant Validation of the French and Guilford-Zimmerman Spatial Orientation and Spatial Visualization Factors , 1972 .
[6] K. Christiansen. Sex hormone-related variations of cognitive performance in !Kung San hunter-gatherers of Namibia. , 1993, Neuropsychobiology.
[7] S. Moffat,et al. Salivary testosterone levels in left-and right-handed adults , 1996, Neuropsychologia.
[8] L. Hubert,et al. The relationship between androgen levels and human spatial abilities , 1983 .
[9] D. West,et al. Quantitating genetic and nongenetic factors influencing androgen production and clearance rates in men. , 1988, The Journal of clinical endocrinology and metabolism.
[10] W. Meck,et al. The organizational effects of gonadal steroids on sexually dimorphic spatial ability , 1991, Psychoneuroendocrinology.
[11] M. P. Bryden,et al. Laterality: Functional Asymmetry in the Intact Brain , 1982 .
[12] S. Resnick,et al. Early hormonal influences on cognitive functioning in congenital adrenal hyperplasia. , 1986 .
[13] H. W. Gordon,et al. The influence of gender, handedness, and performance level on specialized cognitive functioning , 1991, Brain and Cognition.
[14] Seymour Epstein,et al. The stability of behavior: II. Implications for psychological research. , 1980 .
[15] Elizabeth Hampson,et al. Estrogen-related variations in human spatial and articulatory-motor skills , 1990, Psychoneuroendocrinology.
[16] James M. Dabbs,et al. Salivary testosterone measurements: Reliability across hours, days, and weeks , 1990, Physiology & Behavior.
[17] K P Ossenkopp,et al. The measurement and integration of behavioral variables: aggregation and complexity as important issues. , 1985, Neurobehavioral toxicology and teratology.
[18] S. G. Vandenberg,et al. Handedness and Spatial Ability , 1982, Cortex.
[19] B Milner,et al. THE ROLE OF EARLY LEFT‐BRAIN INJURY IN DETERMINING LATERALIZATION OF CEREBRAL SPEECH FUNCTIONS , 1977, Annals of the New York Academy of Sciences.
[20] A. Carandente. Chronobiological aspects of endocrinology. , 1974, Chronobiologia.
[21] D. Kimura,et al. The relationship between testosterone levels and cognitive ability patterns , 1991, Psychoneuroendocrinology.
[22] M. Kavaliers,et al. Sexually dimorphic spatial learning varies seasonally in two populations of deer mice , 1994, Brain Research.
[23] R. Deyo,et al. Testosterone, dihydrotestosterone, and spatial task performances of males , 1990 .
[24] W H Meck,et al. Organizational effects of early gonadal secretions on sexual differentiation in spatial memory. , 1990, Behavioral neuroscience.
[25] R A Harshman,et al. Individual differences in cognitive abilities and brain organization, Part I: Sex and handedness differences in ability. , 1983, Canadian journal of psychology.
[26] P. Irwin. Greater brain response of left-handers to drugs , 1985, Neuropsychologia.
[27] J. Guilford,et al. An Investigation of the Nature of the Spatial-Relations and Visualization Factors in Two High School Samples , 1951 .
[28] H. F. Crovitz,et al. A group-test for assessing hand- and eye-dominance. , 1962, The American journal of psychology.
[29] H. Hécaen,et al. Cerebral organization in left-handers , 1981, Brain and Language.
[30] R. Santti,et al. Testosterone concentrations in human seminal plasma and saliva and its correlation with non‐protein‐bound and total testosterone levels in serum , 1983 .
[31] J. Janowsky,et al. Testosterone influences spatial cognition in older men. , 1994, Behavioral neuroscience.
[32] S. Vandenberg,et al. Mental Rotations, a Group Test of Three-Dimensional Spatial Visualization , 1978, Perceptual and motor skills.
[33] N. Frijda,et al. Gender differences in behaviour: Activating effects of cross-sex hormones , 1995, Psychoneuroendocrinology.
[34] R. Roof,et al. Testosterone improves maze performance and induces development of a male hippocampus in females , 1992, Brain Research.
[35] E. Nieschlag,et al. Salivary testosterone in men: further evidence of a direct correlation with free serum testosterone. , 1981, The Journal of clinical endocrinology and metabolism.
[36] J. Bancroft,et al. ANDROGENS AND SEXUAL BEHAVIOUR IN WOMEN USING ORAL CONTRACEPTIVES , 1980, Clinical endocrinology.
[37] G. Read. Status Report on Measurement of Salivary Estrogens and Androgens , 1993, Annals of the New York Academy of Sciences.
[38] Elizabeth Hampson,et al. Cognitive Pattern in Men and Women Is Influenced by Fluctuations in Sex Hormones , 1994 .
[39] K. Christiansen,et al. Sex hormones and cognitive functioning in men. , 1987, Neuropsychobiology.
[40] Elizabeth Hampson,et al. Variations in sex-related cognitive abilities across the menstrual cycle , 1990, Brain and Cognition.
[41] B. McEwen,et al. Non-genomic and genomic effects of steroids on neural activity. , 1991, Trends in pharmacological sciences.
[42] L. Demers,et al. Bioavailable testosterone in salivary glands. , 1991, Clinical chemistry.