| P50 | author | David Terburg | Q56991514 |
| | Jack van Honk | Q43099309 |
| | Peter A. Bos | Q48565989 |
| P2093 | author name string | Estrella R Montoya | |
| P2860 | cites work | Testosterone administration decreases generosity in the ultimatum game | Q21090040 |
| | A population-specific HTR2B stop codon predisposes to severe impulsivity | Q24319808 |
| | Serotonin modulates behavioral reactions to unfairness | Q24646916 |
| | Atypical empathic responses in adolescents with aggressive conduct disorder: a functional MRI investigation | Q24650714 |
| | Serotonin and aggressive motivation in crustaceans: altering the decision to retreat | Q24672867 |
| | Insensitivity to future consequences following damage to human prefrontal cortex | Q28245479 |
| | The emotional Stroop task and psychopathology | Q28285041 |
| | On the Role of Brain Mineralocorticoid (Type I) and Glucocorticoid (Type II) Receptors in Neuroendocrine Regulation | Q29544273 |
| | Contributions of the amygdala to emotion processing: from animal models to human behavior | Q29615011 |
| | Exogenous cortisol acutely influences motivated decision making in healthy young men. | Q33555179 |
| | Neuroimaging of psychopathy and antisocial behavior: a targeted review | Q33566833 |
| | Salivary testosterone and a trinucleotide (CAG) length polymorphism in the androgen receptor gene predict amygdala reactivity in men | Q33675144 |
| | Androgen actions on central serotonin neurotransmission: relevance for mood, mental state and memory. | Q33770012 |
| | The relationship between basal and acute HPA axis activity and aggressive behavior in adults | Q33805136 |
| | Effects of stress on reproduction in non-rodent mammals: the role of glucocorticoids and sex differences | Q33948979 |
| | Testosterone and cortisol jointly regulate dominance: Evidence for a dual-hormone hypothesis | Q34023804 |
| | Metaplasticity of amygdalar responses to the stress hormone corticosterone | Q34069732 |
| | Androgen production in women | Q34128228 |
| | Serotonin selectively influences moral judgment and behavior through effects on harm aversion | Q34140426 |
| | Neurocognitive models of aggression, the antisocial personality disorders, and psychopathy | Q34448748 |
| | Functional cross-talk between the hypothalamic-pituitary-gonadal and -adrenal axes | Q34669520 |
| | Reduced amygdala response to fearful expressions in children and adolescents with callous-unemotional traits and disruptive behavior disorders | Q34751317 |
| | The social endocrinology of dominance: basal testosterone predicts cortisol changes and behavior following victory and defeat | Q34781942 |
| | Increased serotonin 2A receptor availability in the orbitofrontal cortex of physically aggressive personality disordered patients. | Q34963939 |
| | The testosterone-cortisol ratio: A hormonal marker for proneness to social aggression | Q34981329 |
| | Cortisol, callous-unemotional traits, and pathways to antisocial behavior | Q34981942 |
| | Neural mechanisms of the testosterone-aggression relation: the role of orbitofrontal cortex | Q35013675 |
| | A single administration of cortisol acutely reduces preconscious attention for fear in anxious young men. | Q50895663 |
| | Basal testosterone moderates responses to anger faces in humans. | Q50915541 |
| | Emotional stroop performance for masked angry faces: it's BAS, not BIS. | Q50990913 |
| | Conscious and preconscious selective attention to social threat: different neuroendocrine response patterns. | Q51080325 |
| | Correlations among salivary testosterone, mood, and selective attention to threat in humans. | Q51088769 |
| | Baseline salivary cortisol levels and preconscious selective attention for threat. A pilot study. | Q51092984 |
| | The effect of tryptophan depletion and enhancement on subjective and behavioural aggression in normal male subjects | Q51126158 |
| | Aggressive behavior and physiological arousal as a function of provocation and the tendency to inhibit aggression1 | Q51343561 |
| | Adrenal androgen and gonadal hormone levels in adolescent girls with conduct disorder. | Q51775562 |
| | A cognitive developmental approach to morality: investigating the psychopath | Q52205767 |
| | An experimental analysis of ultimatum bargaining | Q56431823 |
| | High-testosterone men reject low ultimatum game offers | Q60629355 |
| | Salivary testosterone and cortisol among late adolescent male offenders | Q67793624 |
| | CSF testosterone and 5-HIAA correlate with different types of aggressive behaviors | Q71808587 |
| | Low cerebrospinal fluid 5-hydroxyindoleacetic acid concentration differentiates impulsive from nonimpulsive violent behavior | Q72723429 |
| | Glucocorticoids as a biological substrate of reward: physiological and pathophysiological implications | Q74293274 |
| | Prejudice and truth about the effect of testosterone on human bargaining behaviour | Q35016801 |
| | Increased testosterone-to-cortisol ratio in psychopathy. | Q35194980 |
| | The roles of orbital frontal cortex in the modulation of antisocial behavior | Q35769074 |
| | Estrogenic encounters: how interactions between aromatase and the environment modulate aggression | Q36148561 |
| | Serotonin and aggressive behavior in rodents and nonhuman primates: predispositions and plasticity | Q36313457 |
| | Mechanisms of stress: a dynamic overview of hormonal and behavioral homeostasis | Q36321844 |
| | Classical androgen receptors in non-classical sites in the brain. | Q36700133 |
| | Neural mechanisms of aggression | Q36856434 |
| | Autism and the amygdala: an endocrine hypothesis | Q36903315 |
| | Anabolic-androgenic steroid dependence? Insights from animals and humans | Q36978502 |
| | The effect of increased serotonergic neurotransmission on aggression: a critical meta-analytical review of preclinical studies | Q37464817 |
| | Acute effects of hydrocortisone on the human brain: an fMRI study | Q37480389 |
| | Socially explosive minds: the triple imbalance hypothesis of reactive aggression. | Q37740203 |
| | Cortisol moderates the relationship between testosterone and aggression in delinquent male adolescents | Q40291534 |
| | Autonomic nervous system factors underlying disinhibited, antisocial, and violent behavior. Biosocial perspectives and treatment implications | Q41148973 |
| | Autonomic responsivity in psychopaths: a critical review and theoretical proposal | Q41687611 |
| | Time-dependent effects of corticosteroids on human amygdala processing | Q42879282 |
| | Effects of exogenous testosterone on the ventral striatal BOLD response during reward anticipation in healthy women | Q43096022 |
| | Cortisol administration acutely reduces threat-selective spatial attention in healthy young men. | Q43237257 |
| | Psychophysiological evidence for cortisol-induced reduction in early bias for implicit social threat in social phobia | Q43259719 |
| | Aggression--interactions of serotonin and testosterone in healthy men and women | Q43277849 |
| | A single administration of testosterone induces cardiac accelerative responses to angry faces in healthy young women | Q43546320 |
| | Exogenous cortisol exerts effects on the startle reflex independent of emotional modulation. | Q43553231 |
| | CSF studies in violent offenders. I. 5-HIAA as a negative and HVA as a positive predictor of psychopathy | Q43714698 |
| | Acute stress-induced facilitation of the hypothalamic-pituitary-adrenal axis: evidence for the roles of stressor duration and serotonin | Q43723558 |
| | Low cortisol levels and the balance between punishment sensitivity and reward dependency | Q44619683 |
| | Testosterone shifts the balance between sensitivity for punishment and reward in healthy young women | Q44921327 |
| | Hydrocortisone reduces emotional distracter interference in working memory. | Q46034615 |
| | Amygdala activity to fear and anger in healthy young males is associated with testosterone | Q46167901 |
| | Brain serotonin transporter distribution in subjects with impulsive aggressivity: a positron emission study with [11C]McN 5652. | Q46465939 |
| | Testosterone reduces unconscious fear but not consciously experienced anxiety: implications for the disorders of fear and anxiety | Q46530958 |
| | A single administration of testosterone reduces fear-potentiated startle in humans | Q46927685 |
| | Induction of corticotropin-releasing hormone gene expression by glucocorticoids: implication for understanding the states of fear and anxiety and allostatic load | Q47722791 |
| | Eye tracking unconscious face-to-face confrontations: dominance motives prolong gaze to masked angry faces | Q48154847 |
| | d,l-fenfluramine response in impulsive personality disorder assessed with [18F]fluorodeoxyglucose positron emission tomography. | Q48245231 |
| | Exogenous cortisol shifts a motivated bias from fear to anger in spatial working memory for facial expressions | Q48425097 |
| | Two receptor systems for corticosterone in rat brain: microdistribution and differential occupation | Q48433814 |
| | Steroid-specific regulation of agonistic responding in the anterior hypothalamus of male hamsters | Q48651734 |
| | Exogenous testosterone enhances responsiveness to social threat in the neural circuitry of social aggression in humans. | Q50889932 |
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | serotonin | Q167934 |
| | cortisol | Q190875 |
| | testosterone | Q1318776 |
| | testosterone | Q27863114 |
| P304 | page(s) | 65-73 | |
| P577 | publication date | 2011-11-25 | |
| P1433 | published in | Motivation and Emotion | Q15759668 |
| P1476 | title | Testosterone, cortisol, and serotonin as key regulators of social aggression: A review and theoretical perspective | |
| P478 | volume | 36 | |