Resting-state oscillations reveal disturbed excitation–inhibition ratio in Alzheimer’s disease patients

Nifterick, Anne M. van; Mulder, Danique; Duineveld, Denise J.; Diachenko, Marina; Scheltens, Philip; Stam, Cornelis J.; Kesteren, Ronald E. van; Linkenkaer‐Hansen, Klaus; Hillebrand, Arjan; Gouw, Alida A.

doi:10.1038/s41598-023-33973-8

Cited by 31 publications

(13 citation statements)

References 88 publications

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“…The balance between neural excitation and inhibition can be estimated from resting state MEG and/or EEG data by computing the aperiodic exponent of the signal. This method was validated with simulated local field potentials [ 24 ], and applied to AD patients by van Nifterick and colleagues [ 20 ], reporting signs of hyperexcitability in demented patients with AD but not in early-stage patients, which is fully consistent with our findings. Our approach is complementary to that of van Nifterick et al, as it is based on a different imaging neuroimaging modality.…”

Section: Discussionsupporting

confidence: 87%

“…While our model did not directly assess the balance between neural excitation and inhibition, previous research supports the choice of modeling changes in local inhibition in AD and bvFTD patients [ 9 , 11 , 18 , 20 , 21 ]. In turn, our results provide support for the hypothesis that alterations in neural inhibition modulated by disease-specific atrophy patterns can underlie changes in functional connectivity measured in neurodegeneration.…”

Section: Discussionmentioning

confidence: 83%

“…Although these markers are less frequent in behavioral variant FTD (bvFTD) [ 16 ], they may be also present as non-convulsive seizures [ 17 ]. The prevalence of neural excitability over inhibition is supported by transgenic mouse models of AD [ 18 ], as well as by human studies probing cortical excitability using Transcranial Magnetic Stimulation (TMS) [ 19 ], and by the analysis of spontaneous activity recorded in vivo with MEG, establishing a shift towards higher excitation in a group of advanced AD patients with dementia but not in early-stage patients [ 20 ]. Another study also reported network-specific decreases in neural inhibition in AD patients [ 21 ].…”

Section: Introductionmentioning

confidence: 99%

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Biophysical models applied to dementia patients reveal links between geographical origin, gender, disease duration, and loss of neural inhibition

Moguilner,

Herzog,

Perl

et al. 2024

Alz Res Therapy

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Background The hypothesis of decreased neural inhibition in dementia has been sparsely studied in functional magnetic resonance imaging (fMRI) data across patients with different dementia subtypes, and the role of social and demographic heterogeneities on this hypothesis remains to be addressed. Methods We inferred regional inhibition by fitting a biophysical whole-brain model (dynamic mean field model with realistic inter-areal connectivity) to fMRI data from 414 participants, including patients with Alzheimer’s disease, behavioral variant frontotemporal dementia, and controls. We then investigated the effect of disease condition, and demographic and clinical variables on the local inhibitory feedback, a variable related to the maintenance of balanced neural excitation/inhibition. Results Decreased local inhibitory feedback was inferred from the biophysical modeling results in dementia patients, specific to brain areas presenting neurodegeneration. This loss of local inhibition correlated positively with years with disease, and showed differences regarding the gender and geographical origin of the patients. The model correctly reproduced known disease-related changes in functional connectivity. Conclusions Results suggest a critical link between abnormal neural and circuit-level excitability levels, the loss of grey matter observed in dementia, and the reorganization of functional connectivity, while highlighting the sensitivity of the underlying biophysical mechanism to demographic and clinical heterogeneities in the patient population.

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Section: Discussionsupporting

confidence: 87%

Section: Discussionmentioning

confidence: 83%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Biophysical models applied to dementia patients reveal links between geographical origin, gender, disease duration, and loss of neural inhibition

Moguilner,

Herzog,

Perl

et al. 2024

Alz Res Therapy

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“…Higher values correspond to higher E/I. Recently, it has been demonstrated that this approach is sensitive to E/I alterations known to occur in Alzheimer Disease (Van Nifterick et al 2023). The computation of DFA-based E/I was performed in alpha band, following the method described in (Van Nifterick et al 2023) and based on an adaptation for Brainstorm of the code available at https://github.com/annevannifterick/fEI_in_AD;…”

Section: Methodsmentioning

confidence: 99%

Assessing cortical excitability with electroencephalography: a pilot study with EEG-iTBS

Pellegrino,

Schuler,

Cai

et al. 2023

Preprint

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Cortical excitability measures neural reactivity to stimuli, usually delivered via Transcranial Magnetic Stimulation (TMS). Excitation/inhibition balance (E/I) is the ongoing equilibrium between excitatory and inhibitory activity of neural circuits. According to some studies, E/I could be estimated in-vivo and non-invasively through the modeling of electroencephalography (EEG) signals. Several measures have been proposed (phase consistency in the gamma band, sample entropy, exponent of the power spectral density 1/f curve, E/I index extracted from detrend fluctuation analysis, and alpha power). It remains to be investigated to what extent they scale with excitability and how they relate to each other. Intermittent theta burst stimulation (iTBS) of the primary motor cortex (M1) is a non-invasive neuromodulation technique allowing controlled and focal enhancement of cortical excitability and E/I of the stimulated hemisphere. M1 excitability and several E/I estimates extracted from resting state EEG recordings were assessed before and after iTBS in a cohort of healthy subjects. Enhancement of M1 excitability, as measured through motor-evoked potentials (MEPs), and phase consistency of the cortex in high gamma band correlated with each other. Other measures of E/I showed some expected results, but no correlation with TMS excitability measures or consistency with each other. EEG E/I estimates offer an intriguing opportunity to map cortical excitability non-invasively, with high spatio-temporal resolution and with a stimulus independent approach. While different EEG E/I estimates may reflect the activity of diverse excitatory-inhibitory circuits, spatial phase synchrony in the gamma band is the measure that best captures excitability changes in the primary motor cortex.

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“…Compared to previous studies using the specparam algorithm, where frequency range varies, many used 40 Hz as the upper frequency range 23,48,61 . For sake of clarity, using 48 Hz as upper frequency is also a widely adopted option 62,63 , and stays within the recommendations of the algorithm’s authors. All participants showed a discernible alpha peak in the PSD (see an example in Figure 1).…”

Section: Methodsmentioning

confidence: 99%

Aperiodic component of EEG power spectrum and cognitive performance in aging: the role of education

Montemurro,

Borek,

Marinazzo

et al. 2023

Preprint

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Aging is associated with changes in the oscillatory (periodic) brain activity in the alpha band (8-12 Hz), as measured with resting-state EEG (rsEEG), and it is characterized by significantly lower alpha frequency and power. Aging can influence the aperiodic component of the power spectrum: at a higher age, the slope flattens, and it may show a significant relationship with cognitive performance. However, it is unclear whether education, a cognitive reserve proxy known for its modulatory role on cognition, may influences such relationship. N=179 healthy participants from the LEMON dataset (Babayan et al., 2019) were classified into three groups based on age and education: young adults (N=123) 20-35 years old with high education, older adults 60-77 years old with high (N=24) and low (N=32) education. Eyes-closed rsEEG power spectrum was decomposed at the occipital level with specparam method. Individual Alpha Peak Frequency, exponent, and offset were analyzed in their relationship with cognitive abilities. Results show lower IAPF, exponent, and offset in older as compared to younger adults. Furthermore, visual attention and working memory were differently predicted by the aperiodic rsEEG component depending on educational levels: in older adults with higher education, increasing exponent predicted slower processing speed and less working memory capacity, with an opposite trend in those with lower education.Although further investigations are necessary, this study shows a potential modulatory role of education and other cognitive reserve proxies in the relationship between aperiodic rsEEG and cognition in aging.

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Resting-state oscillations reveal disturbed excitation–inhibition ratio in Alzheimer’s disease patients

Cited by 31 publications

References 88 publications

Biophysical models applied to dementia patients reveal links between geographical origin, gender, disease duration, and loss of neural inhibition

Biophysical models applied to dementia patients reveal links between geographical origin, gender, disease duration, and loss of neural inhibition

Assessing cortical excitability with electroencephalography: a pilot study with EEG-iTBS

Aperiodic component of EEG power spectrum and cognitive performance in aging: the role of education

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