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- Hydrocortison (16) (entfernen)
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There is a lot of evidence for the impact of acute glucocorticoid treatment on hippocampus-dependent explicit learning and memory (memory for facts and events). But there have been few studies, investigating the effect of glucocorticoids on implicit learning and memory. We conducted three studies with different methodology to investigate the effect of glucocorticoids on different forms of implicit learning. In Study 1, we investigated the effect of cortisol depletion on short-term habituation in 49 healthy subjects. 25 participants received oral metyrapone (1500 mg) to suppress endogenous cortisol production, while 24 controls received oral placebo. Eye blink electromyogram (EMG) responses to 105 dB acoustic startle stimuli were assessed. Effective endogenous cortisol suppression had no effect on short-term habituation of the startle reflex, but startle eye blink responses were significantly increased in the metyrapone group. The latter findings are in line with previous human studies, which have shown that excess cortisol, sufficient to fully occupy central nervous system (CNS) corticosteroid receptors, may reduce startle eye blink. This effect may be mediated by CNS mechanisms controlling cortisol feedback. In Study 2, we investigated delay or trace eyeblink conditioning in a patient group with a relative hypocortisolism (30 patients with fibromyaligia syndrome/FMS) compared to 20 healthy control subjects. Conditioned eyeblink response probability was assessed by EMG. Morning cortisol levels, ratings of depression, anxiety and psychosomatic complaints as well as general symptomatology and psychological distress were assessed. As compared to healthy controls FMS patients showed lower morning cortisol levels, and trace eyeblink conditioning was facilitated whereas delay eyeblink conditioning was reduced. Cortisol measures correlate significantly only with trace eyeblink conditioning. Our results are in line with studies of pharmacologically induced hyper- and hypocortisolism, which affected trace eyeblink conditioning. We suggest that endocrine mechanisms affecting hippocampus-mediated forms of associative learning may play a role in the generation of symptoms in these patients.rnIn Study 3, we investigated the effect of excess cortisol on implicit sequence learning in healthy subjects. Oral cortisol (30 mg) was given to 29 participants, whereas 31 control subjects received placebo. All volunteers performed a 5-choice serial reaction time task (SRTT). The reaction speed of every button-press was determined and difference-scores were calculated as a proof of learning. Compared to the control group, we found a delayed learning in the cortisol group at the very beginning of the task. This study is the first human investigation, indicating impaired implicit memory function after exogenous administration of the stress hormone cortisol. Our findings support a previous neuroimaging study, which suggested that the medial temporal lobe (including the hippocampus) is also active in implicit sequence learning, but our results may also depend on the engagement of other brain structures.
Fast and Slow Effects of Cortisol on Several Functions of the Central Nervous System in Humans
(2014)
Cortisol is one of the key substances released during stress to restore homeostasis. Our knowledge of the impact of this glucocorticoid on cognition and behavior in humans is, however, still limited. Two modes of action of cortisol are known, a rapid, nongenomic and a slow, genomic mode. Both mechanisms appear to be involved in mediating the various effects of stress on cognition. Here, three experiments are presented that investigated fast and slow effects of cortisol on several functions of the human brain. The first experiment investigated the interaction between insulin and slow, genomic cortisol effects on resting regional cerebral blood flow (rCBF) in 48 young men. A bilateral, locally distinct increase in rCBF in the insular cortex was observed 37 to 58 minutes after intranasal insulin admission. Cortisol did not influence rCBF, neither alone nor in interaction with insulin. This finding suggests that cortisol does not influence resting cerebral blood flow within a genomic timeframe. The second experiment examined fast cortisol effects on memory retrieval. 40 participants (20 of them female) learned associations between neutral male faces and social descriptions and were tested for recall one week later. Cortisol administered intravenously 8 minutes before retrieval influenced recall performance in an inverted U-shaped dose-response relationship. This study demonstrates a rapid, presumably nongenomic cortisol effect on memory retrieval in humans. The third experiment studied rapid cortisol effects on early multisensory integration. 24 male participants were tested twice in a focused cross-modal choice reaction time paradigm, once after cortisol and once after placebo infusion. Cortisol acutely enhanced the integration of visual targets and startling auditory distractors, when both stimuli appeared in the same sensory hemi-field. The rapidity of effect onset strongly suggests that cortisol changes multisensory integration by a nongenomic mechanism. The work presented in this thesis highlights the essential role of cortisol as a fast acting agent during the stress response. Both the second and the third experiment provide new evidence of nongenomic cortisol effects on human cognition and behavior. Future studies should continue to investigate the impact of rapid cortisol effects on the functioning of the human brain.
Das Stresshormon Cortisol zeigt einen starken zirkadianen Rhythmus mit hohen Cortisolwerten nach dem morgendlichen Erwachen und niedrigen Werten am Abend. Die vorliegende Arbeit legt die Grundlagen dafür, dass der Cortisolspiegel nach dem Erwachen (Cortisol Awakening Response) zukünftig Bestandteil einer multimodalen Diagnostik stressbezogener Erkrankungen werden kann. Zu diesem Zweck werden besonders messmethodische Aspekte des Cortisol Awakening Response (CAR) dargestellt und eingehend diskutiert. Der Einfluss verschiedener konfundierender Variablen wurde in einer quantitativen Metaanalyse untersucht. Ein gesonderter Abschnitt beschreibt verschiedene Möglichkeiten der statistischen Analyse des CAR. Zu diesem Zweck wurden verschiedene statistische Kennwerte generiert und deren Reliabilitäten und Interkorrelationen an einem empirischen Datensatz untersucht. In dieser Arbeit werden auch Normwerte für die einzelnen statistischen Kennwerte des CAR angegeben.
Cortisol is a stress hormone that acts on the central nervous system in order to support adaptation and time-adjusted coping processes. Whereas previous research has focused on slow emerging, genomic effects of cortisol likely mediated by protein synthesis, there is only limited knowledge about rapid, non-genomic cortisol effects on in vivo neuronal cell activity in humans. Three independent placebo-controlled studies in healthy men were conducted to test effects of 4 mg cortisol on central nervous system activity, occurring within 15 minutes after intravenous administration. Two of the studies (N = 26; N = 9) used continuous arterial spin labeling as a magnetic resonance imaging sequence, and found rapid bilateral thalamic perfusion decrements. The third study (N = 14) revealed rapid cortisol-induced changes in global signal strength and map complexity of the electroencephalogram. The observed changes in neuronal functioning suggest that cortisol may act on the thalamic relay of non-relevant background as well as on task specific sensory information in order to facilitate the adaptation to stress challenges. In conclusion, these results are the first to coherently suggest that a physiologically plausible amount of cortisol profoundly affects functioning and perfusion of the human CNS in vivo by a rapid, non-genomic mechanism.
Cortisol exhibits typical ultradian and circadian rhythm and disturbances in its secretory pattern have been described in stress-related pathology. The aim of this thesis was to dissect the underlying structure of cortisol pulsatility and to develop tools to investigate the effects of this pulsatility on immune cell trafficking and the responsiveness of the neuroendocrine system and GR target genes to stress. Deconvolution modeling was set up as a tool for investigation of the pulsatile secretion underlying the ultradian cortisol rhythm. This further allowed us to investigate the role of the single cortisol pulses on the immune cell trafficking and the role of induced cortisol pulses on the kinetics of expression of GR target genes. The development of these three tools, would allow to induce and investigate in future the significance of single cortisol pulses for health and disease.
In jüngerer Zeit wurde in der neuroendokrinologischen Forschung das Phänomen eines Hypocortisolismus bei verschiedenen Störungen, die mit Stress assoziiert sind, beschrieben. Insbesondere bei der Posttraumatischen Belastungsstörung (PTSD) wurde eine verringerte adrenale Aktivität berichtet. Aber auch bei Patienten mit verschiedenen körperlichen Beschwerden wurden ähnliche neuroendokrine Veränderungen gefunden. Dazu zählen unter anderem das Fibromyalgiesyndrom (FMS) und chronische Unterbauchbeschwerden (CUBB). Die Mechanismen, welche dem Hypocortisolismus zugrunde liegen, sind bislang sowohl für die PTSD als auch für stressabhängige körperliche Beschwerden nicht abschließend geklärt. Weiterhin besteht Unklarheit darüber, inwieweit eine Vergleichbarkeit dieser Mechanismen zwischen den verschiedenen Störungsbildern besteht. Die Entstehung und Aufrechterhaltung dieser Erkrankungen scheinen somit ein sehr komplexes Zusammenspiel verschiedener Faktoren darzustellen. Andererseits weisen die Überlappungen hinsichtlich symptomatologischer, psychologischer und endokrinologischer Variablen zwischen PTSD, FMS und CUBB auf die Existenz störungsübergreifender Subgruppen hin. In der vorliegenden Studie wurden psychologische und endokrinologische Auffälligkeiten bei PTSD, FMS und CUBB weiter untersucht. Vorrangiges Ziel war, zu überprüfen, inwieweit störungsübergreifende Subgruppen mit vergleichbaren psychoendokrinologischen Auffälligkeiten bestehen. Insgesamt wurden 59 Patientinnen mittels verschiedener endokrinologischer Tests untersucht und mit 30 gesunden Kontrollfrauen verglichen. Mit einer Clusteranalyse konnten drei unabhängige störungsübergreifende Subgruppen identifiziert werden, die sich hinsichtlich ihrer Reaktionen in den endokrinologischen Tests unterschieden. Es konnte somit gezeigt werden, dass es sich bei den untersuchten Störungsgruppen weder um eine Störungsfamilie mit identischen endokrinen Auffälligkeiten noch um isolierte, d.h. distinkte, von einander unabhängige Erkrankungen handelt. Vielmehr scheinen störungsübergreifende Subgruppen zu bestehen. Weitere Studien sollten die gefunden Muster replizieren und gegebenenfalls erweitern.