Depression recurrence is accompanied by longer periods in default mode and more frequent attentional and reward processing dynamic brain‐states during resting‐state activity

Background: Cochlear implants (CIs) have significantly improved hearing restoration for individuals with severe or profound hearing loss. Nonetheless, a substantial variability in CI outcomes remains unexplained, even when considering subject-specific factors such as age and duration of deafness. This study investigates the use of resting-state functional near-infrared spectroscopy (fNIRS) recordings to predict speech understanding outcomes after cochlear implantation. Our hypothesis posits that resting-state functional connectivity reflects brain plasticity following hearing loss and implantation, and that the average clustering coefficient in brain functional connectivity networks can capture this variation among CI users. Methods: Twenty-two cochlear implant candidates participated in this study. Resting-state fNIRS data were collected pre- implantation and at one month, three months, and one year post-implantation. Speech understanding performance was assessed using CNC words in quiet and BKB sentences in noise one year post-implantation. Resting-state functional connectivity networks were constructed using regularized partial correlation, and the average clustering coefficient was measured in the signed weighted networks as a predictive measure for implantation outcomes. Results: Our findings demonstrate a significant correlation between the average clustering coefficient in resting-state functional networks and speech understanding outcomes. Importantly, our analysis reveals that this measure provides unique information not accounted for by subject-specific factors such as age and duration of deafness. Conclusion: This approach utilizes an easily deployable resting-state functional brain imaging metric to predict speech under-standing outcomes in implant recipients. The results indicate that the average clustering coefficient, both pre and post implantation, correlates with speech understanding outcomes.

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Alterations of resting-state network dynamics in Alzheimer’s disease based on leading eigenvector dynamics analysis

Yang,

Liu,

Wei

et al. 2024

Journal of Neurophysiology

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Alzheimer's disease (AD) is a neurodegenerative disease, and mild cognitive impairment (MCI) is considered a transitional stage between healthy aging and dementia. Early detection of MCI can help slow down the progression of AD. At present, there are few studies exploring the characteristics of abnormal dynamic brain activity in AD. This article uses a method called Leading Eigenvector Dynamics Analysis (LEiDA) to study resting-state functional magnetic resonance imaging (rs-fMRI) data of AD, MCI, and cognitively normal (CN) participants. By identifying repetitive states of phase coherence, inter group differences in brain dynamic activity indicators are examined. And the neurobehavioral scales were used to assess the relationship between abnormal dynamic activities and cognitive function. The results showed that in the indicators of occurrence probability and lifetime, the globally synchronized state of the patient group decreased. The activity state of the limbic regions significantly detected the difference between AD and the other two groups. Compared to CN, AD and MCI have varying degrees of increase in default and visual regions activity states. In addition, in the analysis related to the cognitive scales, it was found that individuals with poorer cognitive abilities were less active in the globally synchronized state, and more active in limbic regions activity state and visual regions activity state. Taken together, these findings reveal abnormal dynamic activity of resting-state networks in patients with AD and MCI, provide new insights into the dynamic analysis of brain networks, and contribute to a deeper understanding of abnormal spatial dynamic patterns in AD patients.

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Depression recurrence is accompanied by longer periods in default mode and more frequent attentional and reward processing dynamic brain‐states during resting‐state activity

Cited by 3 publications

References 76 publications

Resting-state functional connectivity is correlated with peripheral inflammatory markers in patients with major depressive disorder and healthy controls

Resting-state functional connectivity is correlated with peripheral inflammatory markers in patients with major depressive disorder and healthy controls

Resting-state Functional Connectivity Predicts Cochlear-Implant Speech Outcomes

Alterations of resting-state network dynamics in Alzheimer’s disease based on leading eigenvector dynamics analysis

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