Metadaten

Heidelberger Akademie der Wissenschaften [Hrsg.]
Jahrbuch ... / Heidelberger Akademie der Wissenschaften: Jahrbuch 2020 — 2021

DOI Kapitel:
A. Das akademische Jahr 2020
DOI Kapitel:
I. Wissenschaftliche Vorträge
DOI Artikel:
Meyer-Lindenberg, Andreas: Natur und Gehirn – neue Daten zu einem alten Konzept: Sitzung der Mathematisch-naturwissenschaftlichen Klasse am 24. Januar 2020
DOI Seite / Zitierlink: 
https://doi.org/10.11588/diglit.61621#0018
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I. Wissenschaftliche Vorträge

24. Neale, C., et al. The Aging Urban Brain: Analyzing Outdoor Physical Activity Using the
Emotiv Affectiv Suite in Older People. J Urban Health94, 869 — 880 (2017).
25. Lederbogen, E, et al. City living and urban upbringing affect neural social stress proces-
sing in humans. Nature474, 498 — 501 (2011).
26. Haddad, L., et al. Brain structure correlates of urban upbringing, an environmental risk
factor for schizophrenia. Schizophr Bull41, 115 — 122 (2015).
27. Haddad, L., et al. Brain structure correlates of urban upbringing, an environmental risk
factor for schizophrenia. Schizophrenia bulletin4', 115 — 122 (2015).
28. McEwen, B. S., et al. Mechanisms of stress in the brain. Nat Neurosci18, 1353—1363
(2015).
29. Zink, C. E, et al. Know your place: neural processing of social hierarchy in humans.
Neuron58, 273-283 (2008).
30. Tost, H., Champagne, F. A. & Meyer-Lindenberg, A. Environmental influence in the
brain, human welfare and mental health. Nature neurosciencelS, 1421 — 1431 (2015).
31. Bratman, G. N., Hamilton, J. P., Hahn, K. S., Daily, G. C. & Gross, J.J. Nature expe-
rience reduces rumination and subgenual prefrontal cortex activation. Proceedings of the
National Academy of Sciences of the United States of America"2, 8567 — 8572 (2015).
32. Boehringer, A., et al. Neural Correlates of the Cortisol Awakening Response in Humans.
Neuropsychopharmacology: qfficialpublication of the American College ofNeuropsychopharmacology
(2015).
33. Tost, H., et al. Neural correlates of individual differences in affective benefit of real-life
urban green space exposure. Nature Neuroscience (2019).
34. Howes, O. D. & Kapur, S. The dopamine hypothesis of schizophrenia: Version III-the
final common pathway. Schizophrenia bulletin55, 549—562 (2009).
35. Erk, S., et al. Brain function in carriers of a genome-wide supported bipolar disorder
variant. Archives ofgeneral psychiatry97, 803 — 811 (2010).
36. Stefansson, H., et al. CNVs conferring risk of autism or schizophrenia affect cognition in
Controls. Nature505, 361-366 (2014).
37. Ripke, S. Biological Insights From 108 Schizophrenia-Associated Genetic Loci. Na-
ture5", 421-427 (2015).
38. Malhotra, D. & Sebat, J. CNVs: harbingers of a rare variant revolution in psychiatric
genetics. Cell148, 1223-1241 (2012).
39. Paksarian, D., et al. The role of genetic liability in the association of urbanicity at birth
and during upbringing with schizophrenia in Denmark. Psychologische Medizin48,305—314
(2018).
40. Pezawas, L., et al. 5-HTTLPR polymorphism impacts human cingulate-amygdala inter-
actions: a genetic susceptibility mechanism for depression. Nature Neuroscience8, 828 — 834
(2005).
41. Meyer-Lindenberg, A., et al. Neural mechanisms of genetic risk for impulsivity and vi-
olence in humans. Proceedings of the National Academy of Sciences of the United States of Ame-
rica105, 6269-6274 (2006).
42. Streit, F., et al. A functional variant in the neuropeptide S receptor 1 gene moderates the
influence of urban upbringing on stress processing in the amygdala. Stress17, 352—361
(2014).

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