Publications of Jan-Michael Heinzmann
All genres
Journal Article (11)
1.
Journal Article
110, pp. 37 - 47 (2016)
Antidepressant treatment differentially affects the phenotype of high and low stress reactive mice. NEUROPHARMACOLOGY 2.
Journal Article
49, pp. 229 - 243 (2014)
Mice selected for extremes in stress reactivity reveal key endophenotypes of major depression: A translational approach. PSYCHONEUROENDOCRINOLOGY 3.
Journal Article
219 (3), pp. 217 - 229 (2013)
Corticosteroid-binding globulin contributes to the neuroendocrine phenotype of mice selected for extremes in stress reactivity. JOURNAL OF ENDOCRINOLOGY 4.
Journal Article
7 (6), e38971 (2012)
Dendritic Morphology of Hippocampal and Amygdalar Neurons in Adolescent Mice Is Resilient to Genetic Differences in Stress Reactivity. PLoS ONE 5.
Journal Article
70 (10), pp. 928 - 936 (2011)
FK506 Binding Protein 5 Shapes Stress Responsiveness: Modulation of Neuroendocrine Reactivity and Coping Behavior. Biological Psychiatry 6.
Journal Article
44 (6), p. 295 - 295 (2011)
Fluoxetine impacts hypothalamic-pituitary-adrenal axis regulation and changes stress-coping behaviour in mice selectively bred for extremes in stress reactivity. Pharmacopsychiatry 7.
Journal Article
22 (11), pp. 1187 - 1197 (2010)
Intrahippocampal Corticosterone Response in Mice Selectively Bred for Extremes in Stress Reactivity: A Microdialysis Study. Journal of Neuroendocrinology 8.
Journal Article
94 (2), pp. 145 - 152 (2010)
Modeling psychotic and cognitive symptoms of affective disorders: Disrupted latent inhibition and reversal learning deficits in highly stress reactive mice. Neurobiology of Learning and Memory 9.
Journal Article
44 (9), pp. 566 - 575 (2010)
Increased stress reactivity is associated with cognitive deficits and decreased hippocampal brain-derived neurotrophic factor in a mouse model of affective disorders. Journal of Psychiatric Research 10.
Journal Article
42 (5), p. 221 - 221 (2009)
Temporal aspects of HPA axis reactivity and regulation: microdialysis studies in the HR/IR/LR mouse model. Pharmacopsychiatry 11.
Journal Article
42 (5), p. 244 - 244 (2009)
Mice selected for extremes in stress reactivity: modeling clinically relevant endophenotypes of major depression. Pharmacopsychiatry Meeting Abstract (1)
12.
Meeting Abstract
61 Special Issue Ed., PO94, p. 56 - 56. 45th Annual Meeting of the International-Society-of-Psychoneuroendocrinology (ISPNE) on Stress and
the Brain - From Fertility to Senility, Edinburgh, SCOTLAND, September 08, 2015 - September 11, 2015. Elsevier BV, Amsterdam (2015)
Mice selected for extremes in stress reactivity reveal key endophenotypes of major depression: A translational approach. In PSYCHONEUROENDOCRINOLOGY,