Summary
Research has consistently demonstrated that older adults have difficulties consolidating recently learned movements into robust motor memories. This impairment undoubtedly contributes to the movement deficits emerging with healthy aging and hinders rehabilitative strategies. As consolidation is known to be facilitated by sleep, these movement-related deficits partially result from age-associated degradations in sleep characteristics.
Accordingly, the project CLASSy Aging (Closed-Loop Acoustic Stimulation during Sleep to enhance motor memory consolidation in Aging) aims to optimize sleep-related motor memory consolidation in healthy older adults. Specifically, during a post-learning nap, I will use forefront real-time electroencephalographic (EEG) analyses to reactivate memories via Targeted Memory Reactivation time-locked to neuroplasticity-related physiological events of interest (i.e., sleep spindles and slow oscillations). This project will use a novel and sophisticated approach designed to boost sleep-dependent consolidation and minimize previously observed aging-related deficits. I will unravel the neural correlates of the memory reactivation process using high-density EEG during post-learning sleep and the stimulation-enhanced neuroplasticity processes during task practice using functional Magnetic Resonance Imaging (MRI). This project uses a comprehensive approach as the brain will be imaged at different phases of the memory formation (i.e., learning, consolidation and retest) making use of cutting-edge neuroimaging analyses (univariate and multivariate MRI analyses, sources localization of hdEEG signal) tailored to each of these phases. This ambitious, yet feasible, multimodal neuroimaging project will provide significant insights into motor memory processes. It will offer new avenues to amplify neuroplasticity, alleviate motor deficits, and increase well-being in not only healthy aging, but ultimately in those with neurological conditions.
Accordingly, the project CLASSy Aging (Closed-Loop Acoustic Stimulation during Sleep to enhance motor memory consolidation in Aging) aims to optimize sleep-related motor memory consolidation in healthy older adults. Specifically, during a post-learning nap, I will use forefront real-time electroencephalographic (EEG) analyses to reactivate memories via Targeted Memory Reactivation time-locked to neuroplasticity-related physiological events of interest (i.e., sleep spindles and slow oscillations). This project will use a novel and sophisticated approach designed to boost sleep-dependent consolidation and minimize previously observed aging-related deficits. I will unravel the neural correlates of the memory reactivation process using high-density EEG during post-learning sleep and the stimulation-enhanced neuroplasticity processes during task practice using functional Magnetic Resonance Imaging (MRI). This project uses a comprehensive approach as the brain will be imaged at different phases of the memory formation (i.e., learning, consolidation and retest) making use of cutting-edge neuroimaging analyses (univariate and multivariate MRI analyses, sources localization of hdEEG signal) tailored to each of these phases. This ambitious, yet feasible, multimodal neuroimaging project will provide significant insights into motor memory processes. It will offer new avenues to amplify neuroplasticity, alleviate motor deficits, and increase well-being in not only healthy aging, but ultimately in those with neurological conditions.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/887955 |
| Start date: | 01-09-2020 |
| End date: | 31-08-2022 |
| Total budget - Public funding: | 166 320,00 Euro - 166 320,00 Euro |
Cordis data
Original description
Research has consistently demonstrated that older adults have difficulties consolidating recently learned movements into robust motor memories. This impairment undoubtedly contributes to the movement deficits emerging with healthy aging and hinders rehabilitative strategies. As consolidation is known to be facilitated by sleep, these movement-related deficits partially result from age-associated degradations in sleep characteristics.Accordingly, the project CLASSy Aging (Closed-Loop Acoustic Stimulation during Sleep to enhance motor memory consolidation in Aging) aims to optimize sleep-related motor memory consolidation in healthy older adults. Specifically, during a post-learning nap, I will use forefront real-time electroencephalographic (EEG) analyses to reactivate memories via Targeted Memory Reactivation time-locked to neuroplasticity-related physiological events of interest (i.e., sleep spindles and slow oscillations). This project will use a novel and sophisticated approach designed to boost sleep-dependent consolidation and minimize previously observed aging-related deficits. I will unravel the neural correlates of the memory reactivation process using high-density EEG during post-learning sleep and the stimulation-enhanced neuroplasticity processes during task practice using functional Magnetic Resonance Imaging (MRI). This project uses a comprehensive approach as the brain will be imaged at different phases of the memory formation (i.e., learning, consolidation and retest) making use of cutting-edge neuroimaging analyses (univariate and multivariate MRI analyses, sources localization of hdEEG signal) tailored to each of these phases. This ambitious, yet feasible, multimodal neuroimaging project will provide significant insights into motor memory processes. It will offer new avenues to amplify neuroplasticity, alleviate motor deficits, and increase well-being in not only healthy aging, but ultimately in those with neurological conditions.
Status
CLOSEDCall topic
MSCA-IF-2019Update Date
28-04-2024
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