Sample Entropy Combined with the K-Means Clustering Algorithm Reveals Six Functional Networks of the Brain

Jia, Yong; Gu, Huaguang

doi:10.3390/e21121156

Cited by 12 publications

(8 citation statements)

References 46 publications

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“…Nevertheless, the observed relationships between ESE at different levels and behavior, oscillatory dynamics and neurotransmitter densities suggest relevant information can be extracted from the timescales of TVFC. Finally, in the past we and others have equated high (single-scale) SampEn with high complexity (Hirsch & Wohlschlaeger, 2022; Jia & Gu, 2019a, 2019b; Jia et al, 2017), but others have argued that such an interpretation requires a multi-scale entropy analysis (Costa, Goldberger, & Peng, 2002; A. C. Yang et al, 2015). While we have avoided the notion of complexity in the present study, it should be noted that contrary to BOLD SampEn, ESE at our scale of interest captured most of the behaviorally relevant information in healthy subjects (S. S. Menon & Krishnamurthy, 2019).…”

Section: Discussionmentioning

confidence: 99%

“…SampEn is defined as resulting in a nonnegative number, with higher values indicative of less regularity in the signal (Richman & Moorman, 2000). To ensure comparability of our results with past investigations, we used the standard parameter values of m = 2 and ε = 0.20 (Hirsch & Wohlschlaeger, 2022; Jia & Gu, 2019b). For BOLD signals of at least 97 timepoints evidence suggests that results from SampEn analyses are robust to parameter changes (Albert C. Yang, Tsai, Lin, & Peng, 2018), and similar results were obtained for ESE (Jia et al, 2017).…”

Section: Matetials and Methodsmentioning

confidence: 99%

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Diverging functional connectivity timescales: Capturing distinct aspects of cognitive performance in early psychosis

Hirsch,

Bumanglag,

Zhang

et al. 2024

Preprint

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Background: Psychosis spectrum disorders (PSDs) are marked by cognitive impairments, the neurobiological correlates of which remain poorly understood. Here, we investigate the entropy of time-varying functional connectivity (TVFC) patterns from resting-state fMRI (rfMRI) as potential biomarker for cognitive performance in PSDs. By combining our results with multimodal reference data, we hope to generate new insights into the mechanisms underlying cognitive dysfunction in PSDs. We hypothesized that low-entropy TVFC patterns (LEN) would be more behaviorally informative than high-entropy TVFC patterns (HEN), especially for tasks that require extensive integration across diverse cognitive subdomains. Methods: rfMRI and behavioral data from 97 patients in the early phases of psychosis and 53 controls were analyzed. Positron-Emission Tomography (PET) and magnetoencephalography (MEG) data were taken from a public repository (Hansen et al., 2022). Multivariate analyses were conducted to examine relationships between TVFC patterns at multiple spatial scales and cognitive performance in patients. Results: Compared to HEN, LEN explained significantly more cognitive variance on average in PSD patients, driven by superior encoding of information on psychometrically more integrated tasks. HEN better captured information in specific subdomains of executive functioning. Nodal HEN-LEN transitions were spatially aligned with neurobiological gradients reflecting monoaminergic transporter densities and MEG beta power. Exploratory analyses revealed a close statistical relationship between LEN and positive PSD symptoms. Conclusion: Our entropy-based analysis of TVFC patterns dissociates distinct aspects of cognitive performance in PSDs. By linking topographies of neurotransmission and oscillatory dynamics with cognitive symptoms, it enhances our understanding of the mechanisms underlying cognitive deficits in PSDs.

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Section: Discussionmentioning

confidence: 99%

Section: Matetials and Methodsmentioning

confidence: 99%

Diverging functional connectivity timescales: Capturing distinct aspects of cognitive performance in early psychosis

Hirsch,

Bumanglag,

Zhang

et al. 2024

Preprint

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“…, x n 􏼈 􏼉, it is defined as shown in ( 3). e length of subseries B m+1 (r) is the length of m + 1 mean subseries similarity probability and r is the similarity threshold [19,20].…”

Section: Difference Rate Sample Entropymentioning

confidence: 99%

Anomaly Detection for Time Series with Difference Rate Sample Entropy and Generative Adversarial Networks

et al. 2021

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The spontaneous combustion of residual coals in the mined-out area tends to cause an explosion, which is one kind of severe thermodynamic compound disaster of coal mines and leads to serious losses to people's lives and production safety. The prediction and early warning of coal mine thermodynamic disasters are mainly determined by the changes of the index gas concentration pattern in coal mine mined-out areas collected continuously. The time series anomaly pattern detection method is mainly used to reach the state change of gas concentration pattern. The change of gas concentration follows a certain rule as time changes. A great change in the gas concentration indicates the possibility of coal spontaneous combustion and other disasters. To emphasize the features of collected maker gas and overcome the low anomaly detection accuracy caused by the inadequate learning of the normal mode, this paper adopted a method of anomaly detection for time series with difference rate sample entropy and generative adversarial networks. Because the difference rate entropy feature of abnormal data was much larger than that of normal mode, this paper improved the calculation method of the abnormal score by giving different weights to the detection points to enhance the detection rate. To verify the effectiveness of the proposed method, this paper employed simulation models of the mined-out area and adopted coal samples from Dafosi Coal Mine to carry out experiments. Preliminary testing was performed using monitoring data from a coal mine. The experiment compared the entropy results of different time series with the detection results of generative adversarial networks and automatic encoders and showed that the method proposed in this paper had relatively high detection accuracy.

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“…This hierarchical organization provides several promising advantages regarding brain dynamics, including greater robustness, adaptivity and functional diversity 21,23,26 . The classic modular partition based on the modularity maximization method or previously defined modular partitions (e.g., functional subsystems) is performed at a single level and is incapable of revealing the hierarchical modular organization 2,27,28 , which limits further inference about how the hierarchical segregated and integrated processes shape an individual's cognitive abilities. Recently, a nested-spectral partition (NSP) method based on eigenmodes was found to effectively detect hierarchical modules in brain networks 21 , and a concept of hierarchically nested segregation and integration was proposed based on these hierarchical modules.…”

Section: Dynamic Brain Network Analyses Can Detect the Temporal Evolumentioning

confidence: 99%

Flexible Brain Transitions Between Hierarchical Network Segregation and Integration Predict Human Behavior

Wang

Chang

et al. 2020

Preprint

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Cognition involves locally segregated and globally integrated processing. This process is hierarchically organized, linking to evidence from hierarchical modules in brain networks. However, it remains a mystery how flexible transitions between these hierarchical processes are associated with human behavior. Here, we used a multisource interference task and measured hierarchical segregation and integration across multiple levels. Our results show more flexible transitions between segregated and integrated brain states in the task state. Crucially, brain flexibility in resting and task states was associated with human behavior. To achieve a better performance, the resting brain is optimized to be more flexible, such that it is prepared to more efficiently switch into a task state where the brain needs less flexibility to stably perform the task. Our hierarchical modular analysis was more effective in detecting the alterations in functional organization and the phenotype of human behavior than graph-based network measures at a single level.

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Sample Entropy Combined with the K-Means Clustering Algorithm Reveals Six Functional Networks of the Brain

Cited by 12 publications

References 46 publications

Diverging functional connectivity timescales: Capturing distinct aspects of cognitive performance in early psychosis

Diverging functional connectivity timescales: Capturing distinct aspects of cognitive performance in early psychosis

Anomaly Detection for Time Series with Difference Rate Sample Entropy and Generative Adversarial Networks

Flexible Brain Transitions Between Hierarchical Network Segregation and Integration Predict Human Behavior

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