Mutual Information in Frequency and Its Application to Measure Cross-Frequency Coupling in Epilepsy

Malladi, Rakesh; Johnson, Don H.; Kalamangalam, Giridhar P.; Tandon, Nitin; Aazhang, Behnaam

doi:10.1109/tsp.2018.2821627

Cited by 19 publications

(49 citation statements)

References 46 publications

(140 reference statements)

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“…This highlights the power of MIF to quantify nonlinear relationships across frequencies, which is fundamentally different from the restriction of coherence to samefrequency interactions as made clear by the single frequency indexing in (1). Finally, we mention that coherence (1) has a direct relationship to MIF for linear GPs 5 :…”

Section: In Frequency (Mif)mentioning

confidence: 90%

“…In order to estimate MI in the frequency domain between two random processes X(t) and Y(t), we augmented the procedure described in 5 with the multitaper approach 9 . One begins by taking non-overlapping windows of sample paths of both processes, and independence between windows is assumed.…”

Section: In Frequency (Mif)mentioning

confidence: 99%

“…For comparing the variance of the proposed multitaper MIF estimators and determination of how well their estimates would correlate with task-relevant phenomena, we utilized a random sinusoid model similar to what was used in prior work 5 :…”

Section: Mif Estimator Comparisonmentioning

confidence: 99%

“…In particular, we analyzed theta (4)(5)(6)(7)(8) coupling between V4 LFPs in the time window starting at 1.6 s and ending at 2 s from the first stimulus onset. This window takes place approximately during the latter part of image two presentation continuing into the beginning of the decision period.…”

Section: Frequency Coupling Between Gpsmentioning

confidence: 99%

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Precise measurement of correlations between frequency coupling and visual task performance

Young

Dragoi²,

Aazhang

2020

Sci Rep

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Functional connectivity analyses focused on frequency-domain relationships, i.e. frequency coupling, powerfully reveal neurophysiology. Coherence is commonly used but neural activity does not follow its Gaussian assumption. The recently introduced mutual information in frequency (MIF) technique makes no model assumptions and measures non-Gaussian and nonlinear relationships. We develop a powerful MIF estimator optimized for correlating frequency coupling with task performance and other relevant task phenomena. In light of variance reduction afforded by multitaper spectral estimation, which is critical to precisely measuring such correlations, we propose a multitaper approach for MIF and compare its performance with coherence in simulations. Additionally, multitaper MIF and coherence are computed between macaque visual cortical recordings and their correlation with task performance is analyzed. Our multitaper MIF estimator produces low variance and performs better than all other estimators in simulated correlation analyses. Simulations further suggest that multitaper MIF captures more information than coherence. For the macaque data set, coherence and our new MIF estimator largely agree. Overall, we provide a new way to precisely estimate frequency coupling that sheds light on task performance and helps neuroscientists accurately capture correlations between coupling and task phenomena in general. Additionally, we make an MIF toolbox available for the first time.

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Section: In Frequency (Mif)mentioning

confidence: 90%

Section: In Frequency (Mif)mentioning

confidence: 99%

Section: Mif Estimator Comparisonmentioning

confidence: 99%

Section: Frequency Coupling Between Gpsmentioning

confidence: 99%

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Precise measurement of correlations between frequency coupling and visual task performance

Young

Dragoi²,

Aazhang

2020

Sci Rep

Self Cite

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“…Mutual information (MI) is a well-known information extraction criterion that measures the similarity of information content or mutual dependence between two random variables. It was first conceptualized by Shannon [ 28 ], since then it been widely adopted in a variety of applications, especially in the area of biology [ 29 , 30 ]. The mutual information I between two discrete random variables X and Y can be described as in [ 29 ]: …”

Section: Methodsmentioning

confidence: 99%

Novel EM based ML Kalman estimation framework for superresolution of stochastic three-states microtubule signal

2018

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BackgroundRecent research has found that abnormal functioning of Microtubules (MTs) could be linked to fatal diseases such as Alzheimer’s. Hence, there is an imminent need to understand the implications of MTs for disease- diagnosis. However, studies of cellular processes like MTs are often constrained by physical limitations of their data acquisition systems such as optical microscopes and are vulnerable to either destruction of the specimen or the probe. In addition, study of MTs is challenged with non-uniform sampling of the MT dynamic instability phenomenon relative to its time-lapse observation of the cellular processes. Thus, the above caveats limit the overall period of time that the MT data can be collected, thereby causing limited data availability scenario.ResultsIn this work, two novel superresolution frameworks based on Expectation Maximization (EM) based Maximum Likelihood (ML) estimation using Kalman filters (MLK) technique are proposed to address the issues of non-uniform sampling and limited data availability of MT signals. The proposed MLK methods optimizes prediction of missing observations in the MT signal through information extraction using correlation-based patch processing and principal component analysis -based mutual information. Experimental results prove that the proposed MLK-based superresolution methods outperformed nonlinear interpolation and compressed sensing methods.ConclusionsThis work aims to address limited data availability and data/observation loss incurred due to non-uniform sampling of biological signals such as MTs. For this purpose, statistical modelling of stochastic MT signals using EM based ML driven Kalman estimation (MLK) is considered as a fundamental framework for prediction of missing MT observations. It was experimentally validated that the proposed superresolution methods provided superior overall performance, better MT signal estimation using fewer samples, high SNR, low errors, and better MT parameter estimation than other methods.

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Variation of functional brain connectivity in epileptic seizures: an EEG analysis with cross-frequency phase synchronization

Zhu

Cai

et al. 2019

Cogn Neurodyn

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Frequency coupling in nervous system is believed to be associated with normal and impaired brain functions. However, most of the existing experiments have been concentrated on the coupling strength within frequency bands, while the coupling strength between different bands is ignored. In this work, we apply phase synchronization index (PSI) to investigate the cross-frequency coupling (CFC) of Electroencephalogram (EEG) signals. The PSI matrixes for the multichannel EEG signals are calculated from interictal to ictal period in each sliding time window. The results show that CFC changes obviously once seizure occurs between the different bands, and such alteration is earlier than the appearance of clinical symptoms in seizure. Considering the similar role of the within-frequency coupling (WFC), we further reconstruct multi-layered brain networks, including CFC networks and WFC networks. The graph metrics are applied to investigate the variation of network structure of the epileptic brain. Significant decreases/increases of the local/global efficiency are found in d-b, d-a, h-a and d-h bands from the CFC network, while WFC network shows a significant decline in the local efficiency in h and a bands. These findings suggest that CFC may provide a new perspective to observe the alteration of brain structure when seizure occurs, and the investigation of functional connectivity across the full frequency spectrum can give us a deeper understanding of epileptic brains.

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Mutual Information in Frequency and Its Application to Measure Cross-Frequency Coupling in Epilepsy

Cited by 19 publications

References 46 publications

Precise measurement of correlations between frequency coupling and visual task performance

Precise measurement of correlations between frequency coupling and visual task performance

Novel EM based ML Kalman estimation framework for superresolution of stochastic three-states microtubule signal

Variation of functional brain connectivity in epileptic seizures: an EEG analysis with cross-frequency phase synchronization

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