Research master thesis | Psychology (research) (MSc)
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Atomoxetine is a prescription drug often used to restore executive (or cognitive) functioning in patients with attention-deficit/hyperactivity disorder and other neuropsychiatric conditions....Show moreAtomoxetine is a prescription drug often used to restore executive (or cognitive) functioning in patients with attention-deficit/hyperactivity disorder and other neuropsychiatric conditions. Moreover, this drug may potentially be ingested by healthy individuals who seek to improve their cognitive performance. However, the effect of atomoxetine on healthy brain functioning remains largely unclear. Network approaches have become useful for studying how the functional connectivity between brain regions may enhance or hinder executive functioning. Accordingly, to further examine the underlying mechanisms of action of atomoxetine, it is relevant to explore how this drug influences the functional connectivity of a large-scale brain network involved in the control of top-down processes: the executive control network (ECN). The aim of this study was thus to investigate the effect of atomoxetine (40 mg) on the functional connectivity of the ECN in healthy volunteers (n = 15). Network analyses were conducted on unpublished functional magnetic resonance (fMRI)-data collected by Chamberlain and colleagues (2009) in a double-blind, placebo-controlled, within-subjects, crossover design in which participants completed a goal-directed fMRI-task (i.e., the temporal discounting task), probing the ECN. Contrary to expectations, a paired-samples permutation test, corrected for multiple comparisons by means of a threshold free cluster enhancement, revealed that the functional connectivity of the participants’ ECN does not increase significantly after ingesting atomoxetine as compared to placebo (p > .05 corrected). Nevertheless, exploratory analyses indicated that, relative to placebo, atomoxetine significantly strengthens the functional connectivity of a frontoparietal network highly associated with cognition and language paradigms (t(14) = 7.61, p = .003). Together, these results suggest that, in healthy individuals, atomoxetine might not have enhancing effects on the processes supported by the ECN but (potentially) on those supported by a frontoparietal network. Atomoxetine might thus have beneficial effects in the cognitive performance of healthy individuals by facilitating certain processes associated with both cognition and language. Further research is however warranted to corroborate these findings in confirmatory studies and enhance the understanding of the underlying mechanisms of action of atomoxetine in healthy brain functioning.Show less
BACKGROUND: Cortical correlates to heart rate variability (HRV) are assumed to involve interconnectivity between single brain areas and large-scale brain networks (LSN) in the extended...Show moreBACKGROUND: Cortical correlates to heart rate variability (HRV) are assumed to involve interconnectivity between single brain areas and large-scale brain networks (LSN) in the extended neurovascular integration model (NVI). Among those are the CEN and the DMN from the triple network model (TNM) and the anterior insula (AI) and the dorsal anterior cingulate cortex (DACC). This study aimed to test if AI and DACC are involved as the SN in FC patterns that correlate to HRV. Second, it was tested if LSN show FC patterns in accordance with the TNM during experimental tasks. METHODS: 27 female participants (18- 35 years) took part in this cross-sectional fMRI study. Experimentally induced FC patterns of the three LSN with HRV as a covariate were used for the statistical model. RESULTS: As hypothesised, the CEN showed significantly more intrinsic FC during the WMT which was associated with HRV. Further, there was an association between HRV and the FC between the CEN and AI/ACC, respectively. Against the hypothesis, an involvement of the full SN could not be confirmed. The results concerning the DMN disconfirm the hypothesis of an increased FC during the rumination condition. Lastly, a trend was visible for lower HRV during the WMT compared to the rumination condition, but this difference did not reach the significance level. CONCLUSION: The present results confirm the AI and ACC as autonomous brain regions involved in FC patterns associated with HRV. This confirmation of the NVI opposes the unexpectedly high FC pattern of the DMN during the WMT, which points to explanatory gaps in the external validity of the model and the role of LSN vs. single brain regions as associates of HRV.Show less
