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Adult Age-differences in Auditory Selective Attention: The Interplay of Norepinephrine and Rhythmic Neural Activity

Subject Area General, Cognitive and Mathematical Psychology
Developmental and Educational Psychology
Human Cognitive and Systems Neuroscience
Term from 2017 to 2020
Project identifier Deutsche Forschungsgemeinschaft (DFG) - Project number 369385245
 
Selective attention refers to the ability to focus on a subset of the available external (i.e., sensory) and / or internal information (e.g., thoughts, emotions, memories). Therefore, it is a crucial component of successful goal-directed behavior in daily live. For example, participating in a conversation with multiple nearby speakers, e.g., during a party or in a restaurant, requires focusing on the currently relevant interaction partner while simultaneously ignoring interfering voices. However, with advancing age deficits in selective attention become prevalent and can impair daily social interactions. On a neurophysiological level, modulation of attention is linked to the functionality of both the noradrenergic system as well as rhythmic neural activity in the alpha-frequency range (~ 10 Hz). While evidence has accumulated about their functional significance in isolation, much less is known about their interplay. Crucially, both the noradrenergic system and rhythmic neural alpha-activity reveal alterations with advancing age. Hence, building on recent empirical observations and theoretical advancements, we propose a multimodal assessment of both, namely the structural and functional integrity of the central noradrenergic system (via neuromelanin-sensitive magnetic resonance imaging (MRI) and pupillometry, respectively) as well as the functional integrity of rhythmic neural activity (via electroencephalography [EEG]) in the alpha frequency range. Ultimately, we will integrate multiple levels of analysis to foster a mechanistic understanding of age-related declines in selective attention by revealing the interplay between the noradrenergic system and rhythmic neural activity.
DFG Programme Research Grants
International Connection USA
Cooperation Partner Professorin Mara Mather, Ph.D.
 
 

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