In the next three decades, the world's population over 60 years old is expected to more than double its size. Even in the absence of an obvious pathology (i.e., healthy aging), advancing age is typically associated with a progressive decline in cognitive performance. Although pathophysiological changes in age-related neurodegenerative disorders have received much attention over the past years, far less is known about the neural processes affecting cognition in healthy ageing. One of these postulated processes is neural dedifferentiation (i.e., a decrease in neural selectivity, by which neural representations of processed information become less univocally distinguishable), possibly accompanied by the recruitment of additional cortical areas in the healthy aging brain. To date, these processes have been extensively studied on the neural level, yet their functional significance for cognitive behaviour remains largely unclear. This project will investigate neural dedifferentiation and its relationship to cognitive performance in the healthy aging brain. To this end, the investigators will use a combination of state-of-the-art technologies including simultaneous transcranial magnetic stimulation (TMS) and high-density electroencephalography (hd-EEG) as well as diffusion tensor imaging (DTI). Perspectives include a better understanding of the relationship between neurophysiological mechanisms and cognitive performance in the healthy aging brain.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
SINGLE
Enrollment
40
Medical Device (MD): MagPro X100
Sham stimulation is delivered with a dedicated coil, which is magnetically shielded and thus produces only approx. 20% of the nominal magnetic field. This is not enough to reach and stimulate the cortex, but the produced sound and scalp sensation are the same as with a real TMS coil.
Department of Neurology, Inselspital, Bern University Hospital
Bern, Switzerland
Age-related differences in the spatio-temporal patterns of signal propagation
The spatiotemporal patterns of signal propagation, as measured with a combined TMS-hd-EEG approach, in younger and older healthy participants, reflecting age-related differences on the neural level.
Time frame: 2 hours
Association between the performance in a cognitive test battery and patterns of signal propagation in younger and older participants
The association between the performance in a specific cognitive test and the aforementioned patterns of signal propagation in younger and older healthy participants, reflecting the functional significance of these age-related patterns on the cognitive level.
Time frame: 4 hours
Association between the performance in a cognitive test battery and patterns of signal propagation in better- and worse-performers
The association between the performance in a specific cognitive test and the aforementioned patterns of signal propagation in better- and worse-performers, reflecting the functional significance of these age-independent patterns on the cognitive level.
Time frame: 4 hours
Association between the patterns of signal propagation and the structural properties of the white matter
The association between the aforementioned patterns of signal propagation and the structural properties of the white matter interconnecting the involved cortical areas, as measured by DTI.
Time frame: 4 hours
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