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Neurobiology or agression and impulsivity

Published online by Cambridge University Press:  18 September 2015

S. Tuinier*
Affiliation:
Psychiater Vincent van Gogh Instituut Venray
W.M.A. Verhoeven
Affiliation:
Zenuwarts/, A-opleider Vincent van Gogh Instituut Venray
*
Vincent van Gogh Instituut voor Psychiatrie, Stationsweg 46, 5803 AC Venray

Summary

Because of the graded nature of adaptational processes, a dimensional diagnostic approach is more adequate than the categorical classification. The broad concept of the serotonin-aggression relationship, irrespective of the diagnostic category, is increasingly questionable and seems to be present in young, white male adults with antisocial personality disorders only. In this group, dopaminergic and neurosteroid-linked mechanisms are important as well.

Type
Research Article
Copyright
Copyright © Scandinavian College of Neuropsychopharmacology 1999

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References

Literatuur

1.Kraemer, GW, Clarke, AS. The behavioral neurobiology of self-injurious behavior in rhesus monkeys. Progr neuropsychopharmacol biol Psychiat 1990; 14: 141–68.CrossRefGoogle ScholarPubMed
2.Rosenblum, LA, Coplan, JD, Friedman, S, Bassoff, T, Gorman, JM, Andrews, MW. Adverse early experiences affect noradrenergic and serotonergic functioning in adult primates. Biol Psychiat 1994; 35: 221–27.CrossRefGoogle ScholarPubMed
3.Olivier, B, Mos, J, Slangen, JL. Animal models in psychopharmacology. Birkhauser Verlag, Berlin, 1991.CrossRefGoogle Scholar
4.Miczek, KA, Weerts, E, Hanney, M, Tidey, J. Neurobiological mechanisms controlling aggression: preclinical developments for pharmacotherapy interventions. Neurosci biobehav Rev 1994; 18: 97110.CrossRefGoogle Scholar
5.Praag, HM van, Leijnse, B. Neubewertung des Syndroms. Skizze eine functionellen Pathologie. Psychiat neurol Neurochirurgie 1965; 68: 5066.Google Scholar
6.Paris, J. The etiology of borderline personality disorder: a biopsy-chosocial approach. Psychiatry 1994; 57: 316–25.CrossRefGoogle Scholar
7.Cloninger, CR, Svrakic, DM, Przybeck, TR. A psychobiological model of temperament and character. Arch gen Psychiatry 1993; 50: 975–90.CrossRefGoogle ScholarPubMed
8.Bioulac, B, Benezech, M, Renoud, B, Roche, D, Noël, B. Biogenic amines in 47.XYY syndrome. Neuropsychobiology 1978; 4: 366–70.CrossRefGoogle Scholar
9.Brown, GL, Goodwin, FK, Ballenger, JC, Goyer, PF, Major, LF. Aggression in humans correlate with cerebrospinal fluid amine metabolites. Psychiatry Res 1979; 1: 131–39.CrossRefGoogle ScholarPubMed
10.Tuinier, S, Verhoeven, WMA, Praag, HM van. Cerebrospinal fluid 5-hydroxyindolacetic acid and agression, a critical reappraisal of the clinical data. Int Clin Psychopharmacol 1995; 10: 147–56.CrossRefGoogle Scholar
11.Tuinier, S, Verhoeven, WMA, Van Praag, HM. Serotonin and disruptive behavior; A critical evaluation of the clinical data. Hum Psychopharmacol 1996; 11: 469–82.3.0.CO;2-X>CrossRefGoogle Scholar
12.Verhoeven, WMA, Tuinier, S. Biological and psychopharmacological aspects of impulse-control disorders. Acta Neuropsychiatr 1997; 9: 8993.CrossRefGoogle ScholarPubMed
13.Tuinier, S, Verhoeven, WMA. Dimensional classification and behavioural pharmacology of personality disorders; a review and hypothesis. Eur Neuropsychopharmacol 1995; 5: 135–46.CrossRefGoogle Scholar
14.Raine, A. Autonomic nervous system factors underlying disinhibited, antisocial, and violent behavior. Biosocial perspectives and treatment implications. Ann N Y Acad Sci 1996; 20: 4659.CrossRefGoogle Scholar
15.Kloet, E de, Rots, NY, Cools, AR. Brain-corticosteroid hormone dialogue: Slow and persistent. Cell mol Neurobiol 1996; 16: 345–56.CrossRefGoogle ScholarPubMed
16.Meijer, OC, Kloet, ER de. Corticosterone and serotonergic neurotransmission in the hippocampus; functional implications of central corticosteroid receptor diversity. Crit Rev Neurobiol 1998; 12: 120.CrossRefGoogle ScholarPubMed
17.Rots, NY, Jong, J de, Workel, JO, Levine, S, Cools, AR, Kloet, ER de. Neonatal maternally deprived rats have as adults elevated basal pituitary-adrenal activity and enhanced susceptibility to apomor-phine. J Neuroendecrinol 1996; 8: 501–06.CrossRefGoogle Scholar
18.Rots, NY, Cools, AR, Oitzl, MS, Jong, J de, Sutanto, W, Kloet, ER de. Divergent prolactin and pituitary-adrenal activity in rats selectively bred for diferent dopamine responsiveness. Endocrinology 1996; 137: 1678–86.CrossRefGoogle Scholar
19.Hertsgaard, L, Gunnar, M, Erickson, MF, Nachmias, M. Adrenocortical responses to the strange situation in infants with desorganized/disoriented attachment relationships. Child Dev 1995; 66: 1100–06.CrossRefGoogle Scholar
20.Gunnar, MR, Tout, K, Haan, M de, Pierce, S, Stansbury, K. Temperament, social competence, and adrenocortical activity in preschoolers. Dev Psychobiol 1997; 31: 6585.3.0.CO;2-S>CrossRefGoogle ScholarPubMed
21.Saint-Cyr, JA, Taylor, AE, Nicholson K. Behavior and the basal ganglia. Adv Neurol 1995; 65: 128.Google ScholarPubMed