Breakdown of TMS evoked EEG signal propagation within the default mode network in Alzheimer’s disease

Breakdown of TMS evoked EEG signal propagation within the default mode network in Alzheimer’s disease

[Display omitted] •AD patients show a remarkable breakdown of signal propagation within the DMN tested by TMS-EEG recordings.•These disruptions are not detectable stimulating other areas (left dorsolateral prefrontal cortex) or for different networks.•Individual connectivity impairment is s associat...

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Published in:Clinical neurophysiology Vol. 167; pp. 177 - 188
Main Authors: Maiella, Michele, Mencarelli, Lucia, Casula, Elias P., Borghi, Ilaria, Assogna, Martina, di Lorenzo, Francesco, Bonnì, Sonia, Pezzopane, Valentina, Martorana, Alessandro, Koch, Giacomo
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-11-2024
Subjects:
Alzheimer’s Disease
Clinical Dementia Rating Scale sum of boxes
Default Mode Network
Electroencephalography
Magnetic resonance imaging
Transcranial magnetic stimulation
Alzheimer’s Disease
Transcranial magnetic stimulation
AD
CDR-SB
Magnetic resonance imaging
DMN
Default Mode Network
MRI
EEG
Electroencephalography
Clinical Dementia Rating Scale sum of boxes
TMS
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Summary:[Display omitted] •AD patients show a remarkable breakdown of signal propagation within the DMN tested by TMS-EEG recordings.•These disruptions are not detectable stimulating other areas (left dorsolateral prefrontal cortex) or for different networks.•Individual connectivity impairment is s associated with the level of cognitive impairment, as measured by the CDR-SB. The neural activity of the Default Mode Network (DMN) is disrupted in patients with In Alzheimer’s disease (AD). We used a novel multimodal approach to track neural signal propagation within the DMN in AD patients. Twenty mild to moderate AD patients were recruited. We used transcranial magnetic stimulation (TMS) pulses to probe with a millisecond time resolution the propagation of evoked electroencephalography (EEG) signal following the neural activation of the Precuneus (PC), which is a key hub area of the DMN. Moreover, functional and structural magnetic resonance imaging (MRI) data were collected to reconstruct individual features of the DMN. In AD patients a probe TMS pulse applied over the PC evokes an increased local activity unmasking underlying hyperexcitability. In contrast, the EEG evoked neural signal did not propagate efficiently within the DMN showing a remarkable breakdown of signal propagation. fMRI and structural tractography showed that impaired signal propagation was related to the same connectivity matrices derived from DMN BOLD signal and transferred by specific white matter bundles forming the cingulum. These features were not detectable stimulating other areas (left dorsolateral prefrontal cortex) or for different networks (fronto-parietal network). Finally, connectivity breakdown was associated with cognitive impairment, as measured with the Clinical Dementia Rating Scale sum of boxes (CDR-SB). TMS-EEG in AD shows both local hyperexcitability and a lack of signal propagation within the DMN. These neurophysiological features also correlate with structural and cognitive attributes of the patients. Neuronavigated TMS-EEG may be used as a novel neurophysiological biomarker of DMN connectivity in AD patients.
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ISSN:1388-2457
1872-8952
1872-8952
DOI:10.1016/j.clinph.2024.09.007