Gamma power increased in Alzheimer's disease patients in comparison to healthy controls during recognition of facial expressions

Güntekin, Bahar; Yıldırım, Ebru; Kıyı, İlayda; Fide, Ezgi; Uzunlar, Hakan; Çalışoğlu, Pervin; Yirikogullari, Harun; Aktürk, Tuba; Yener, Görsev

doi:10.1002/alz.043387

Cited by 2 publications

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“…For example, in depression, both HFD (Akar et al, 2015) and power (Strelets et al, 2007) in gamma band increases, indicating a positive correlation. Similarly, reduced HFD in AD (Smits et al, 2016) and increased gamma power during resting state (van Deursen et al, 2008; Güntekin et al, 2020; Fide et al, 2021) hint at a negative correlation. PCeske and colleagues surveyed several studies and found HFD to be negatively correlated with theta, alpha and beta band power but weakly positively related to gamma band power (Päeske et al, 2023).…”

Section: Discussionmentioning

confidence: 93%

Age-related changes in Higuchi’s fractal dimension in healthy human EEG are anti-correlated with changes in oscillatory power and 1/f slope

Aggarwal,

Ray

2024

Preprint

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Non-linear dynamical methods such as Higuchi’s fractal dimension (HFD) are often used to study the complexities of brain activity. In human electroencephalogram (EEG), while power in the gamma band (30-70 Hz) and the slope of the power spectral density (PSD) have been shown to reduce with healthy aging, there are conflicting findings regarding how HFD and other measures of complexity vary with aging. Further, the dependence of HFD on features obtained from PSD (such as gamma power and slope) has not been thoroughly probed. To address these issues, we computed time and frequency resolved HFD for EEG data collected from elderly population (N=217), aged between 50-88 years, for baseline (BL) eyes open state and during a fixation task in which visual grating stimuli that induce strong gamma oscillations were presented. During BL, HFD increased with age at frequencies upto 150 Hz, but surprisingly showed an opposite trend at higher frequencies. Interestingly, this change in HFD was opposite to the age-related change in PSD 1/f slope. Further, stimulus-related changes in HFD were anti-correlated with the changes in oscillatory power. However, age classification using HFD was slightly better than classification using spectral features (power and slope). Therefore, HFD could effectively integrate various spectral features as well as some non-linearities not captured using spectral analysis, which could enhance our understanding of brain dynamics underlying healthy aging.Significance StatementHiguchi’s fractal dimension (HFD) is used widely to understand the complexity and non-linearities in brain signals. Previous studies have found inconsistent results regarding the change of HFD with aging. We tested whether this could be due to changes in spectral measures like oscillatory power and slope with aging by computing time-frequency resolved HFD for EEG data from elderly subjects (N=217; 50-88 years). We found that HFD increased with age upto 150 Hz, but decreased at higher frequencies. Interestingly, age-related changes in HFD were negatively correlated to the corresponding changes in slope and oscillatory power. Age classification using HFD was slightly better than spectral features, suggesting that HFD effectively integrates spectral as well as non-linear changes in brain signals with aging.

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Section: Discussionmentioning

confidence: 93%

Age-related changes in Higuchi’s fractal dimension in healthy human EEG are anti-correlated with changes in oscillatory power and 1/f slope

Aggarwal,

Ray

2024

Preprint

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“…Information judgment is to study the conveyed meaning by facial expressions (such as happy, angry, or sad). Indication judgment is to study physical signals, which are used to convey information (such as raised cheeks or sunken lips) [15][16][17]. e main disadvantage of the information judgment method is that it cannot explain the full range of facial expressions.…”

Section: Introductionmentioning

confidence: 99%

Facial Expression Recognition Method Combined with Attention Mechanism

Chen

Cheng²,

Zhang

et al. 2021

Mobile Information Systems

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Aiming at the slow speed and low accuracy of traditional facial expression recognition, a new method combining the attention mechanism is proposed. Firstly, group convolution is used to reduce network parameters. The channels of traditional convolution are grouped to cut off redundant connections so that the number of parameters decreases significantly. Secondly, the ERFNet network model was improved by combining the asymmetric residual module and the weak bottleneck module to improve the running speed and reduce the loss of accuracy. Finally, the attention mechanism was added into the feature extraction network to improve the recognition precision. The experiment shows that compared with traditional face recognition methods, the proposed method can improve the recognition precision and recall significantly; in CK+, Jaffe, and Fer2013 datasets, the recognition precision can reach 88.81%, 82.16%, and 79.33%, respectively.

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Gamma power increased in Alzheimer's disease patients in comparison to healthy controls during recognition of facial expressions

Cited by 2 publications

References 0 publications

Age-related changes in Higuchi’s fractal dimension in healthy human EEG are anti-correlated with changes in oscillatory power and 1/f slope

Age-related changes in Higuchi’s fractal dimension in healthy human EEG are anti-correlated with changes in oscillatory power and 1/f slope

Facial Expression Recognition Method Combined with Attention Mechanism

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