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Noninvasive Modulation of Cognition in Older Adults – Neural Correlates and Behavioral Outcomes
(2022)
Background: The worldwide population will grow older in the upcoming years. Aging, even in the absence of pathological processes, is associated with decline in cognitive functioning. Age-related cognitive decline is not a uniform process affecting every function in the same way. Research should thus examine specific functions, such as episodic memory or executive functions differentially, especially in older samples. Neural correlates of these functions are well characterized in young adults. However, research on functional and structural neural substrates underlying specific cognitive functions in older adults is scarce, but needed for example to identify targets for noninvasive interventions against cognitive decline. Current advances in this field point towards the effectiveness of combined noninvasive interventions of cognitive training and transcranial direct current stimulation (tDCS). So far, evidence regarding such combined interventions in older adults is inconclusive and neural mechanisms of successful interventions are still unclear. This line of research could advance the development of noninvasive methods to modulate cognitive functions and therefore address the unmet need for treatment options against age-related cognitive decline.
Aims: The main aims of the present thesis were (i) to characterize functional and structural neural network correlates of two cognitive functions with high relevance for daily living, namely working memory updating and value-based decision making, (ii) to map out interventions of combined cognitive training and tDCS to modulate these cognitive functions in healthy older adults and adults with prodromal AD and (iii) to assess behavioral and neural outcomes of combined cognitive training (of either executive functions or visuo-spatial memory) and tDCS interventions.
Methods: In order to address these aims, the present thesis includes five papers. Paper I assessed functional and structural neural correlates of working memory updating and value-based decision-making performance in healthy older adults using functional magnetic resonance imaging and diffusion tensor imaging. Papers II and III comprise study protocols of a three-week cognitive training of working memory updating and value-based decision-making abilities with concurrent tDCS over the left dorsolateral prefrontal cortex in healthy older adults and adults with prodromal AD. Paper IV used mixed-model analysis to compute behavioral outcomes of this combined intervention in healthy older adults, including outcome measures of the trained tasks, measures of transfer to untrained tasks and assessment of long-term effects at four weeks and half a year after the intervention. In paper V neural alterations after cognitive training of visuo-spatial memory and active stimulation compared to the training and sham (placebo) stimulation were assessed in older adults using measures of functional network centrality and diffusion tensor imaging-derived measures of grey matter microstructure.
Results: Analyses revealed distinct functional and structural connectivity correlates of performance on the two cognitive tasks assessing working memory updating and value-based decision-making (paper I). Moreover, results showed a combined contribution of a specific white matter pathway (cingulum bundle) and frontoparietal functional connectivity to working memory updating performance, thereby providing information on possible network targets for modulation of working memory updating and value-based decision-making. The combined modulatory intervention of cognitive training and tDCS (papers II and IV) did not demonstrate group differences between concurrent active tDCS over sham tDCS in the trained tasks. However, analysis of a working memory transfer task revealed a beneficial effect of training and active tDCS over training and sham tDCS at post intervention and follow-up. Findings from paper V showed reduced functional network centrality after visuo-spatial memory training and active tDCS compared to training and sham tDCS in the stimulated brain area and its contralateral homologue. Additionally, after the training, measures of grey matter microstructural plasticity in the stimulated brain area were associated with beneficial training outcomes for the active but not the sham stimulation group.
Conclusion: Taken together, cognitive performance, functional and structural networks as well as the possibility of their modulation through combined cognitive training and tDCS interventions were investigated in older adults with and without cognitive impairment. The present thesis therefore contributes to the field of noninvasive neuromodulation in older adults by characterizing distinct neural correlates of two age-sensitive executive functions, which may be altered through modulatory interventions. Moreover, the present work shows that cognitive training with concurrent tDCS holds the potential to elicit transfer effects to untrained tasks and further may evoke neural plasticity on the functional and microstructural level. This work thus promotes the development of modulatory interventions against age-associated cognitive decline and holds promising implications for translation to clinical application.
Frequency of biopsies after the disclosure of incidental findings from whole-body research MRI
(2021)
Large-scale, population-based cohort studies gather a range of data from participants over extended periods of time with the goal of providing researchers with information regarding the health status, prevalence of disease, and risk factors in a regional population. Examinations conducted in the context of population-based studies include imaging and laboratory testing and may yield abnormal results, also called incidental findings. According to predetermined disclosure policies, incidental findings may be disclosed to study participants. Evidence shows that the disclosure of incidental findings results in medical follow-up as research participants and their physicians seek to clarify the significance of findings.
This work examined the effect of disclosing incidental findings from whole-body MRI (wb-MRI) on the frequency and organ system of biopsies in participants in the Study of Health in Pomerania (SHIP), a population-based cohort study in Mecklenburg-West Pomerania. As most of the incidental wb-MRI findings involved unclear masses and lesions, we hypothesized that the disclosure of wb-MRI findings would lead to an increase in diagnostic biopsies. Based on current data showing that the outcomes of incidental imaging findings are frequently clinically irrelevant, we further hypothesized that an increase in biopsies would not translate to a clinically relevant increase in diagnoses of malignancies. We also took disclosed laboratory findings into account, as they were disclosed to all SHIP participants and may play a role in the decision to pursue a biopsy.
We found that the rate of biopsies increased after participation in SHIP and disclosure of incidental MRI and laboratory findings. Overall, most biopsies showed nonmalignant findings, indicating likely overdiagnosis and overtesting resulting from the disclosure of incidental findings in our cohort. However, subgroups of participants with disclosed MRI findings had a higher proportion of biopsies revealing premalignant or malignant diagnoses after SHIP, indicating that the applied decision rules for disclosure of MRI findings led to the identification of individuals with an elevated risk for premalignant or malignant diagnoses. The clinical relevance of these diagnoses is unclear and overdiagnosis cannot be ruled out.
In summary, we recommend more restrictive disclosure policies for incidental imaging findings in research to protect research participants from overtesting and to reduce bias. Further studies regarding the long-term morbidity and mortality of participants are needed to better understand the therapeutic impact of the disclosure of incidental wb-MRI findings in the research setting.