Addressing Pitfalls in Phase-Amplitude Coupling Analysis with an Extended Modulation Index Toolbox

Addressing Pitfalls in Phase-Amplitude Coupling Analysis with an Extended Modulation Index Toolbox

Phase-amplitude coupling (PAC) is proposed to play an essential role in coordinating the processing of information on local and global scales. In recent years, the methods able to reveal trustworthy PAC has gained considerable interest. However, the intrinsic features of some signals can lead to the...

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Bibliographic Details
Published in:Neuroinformatics (Totowa, N.J.) Vol. 19; no. 2; pp. 319 - 345
Main Authors: Jurkiewicz, Gabriela J., Hunt, Mark J., Żygierewicz, Jarosław
Format: Journal Article
Language:English
Published: New York Springer US 01-04-2021
Springer Nature B.V
Subjects:
Action Potentials - physiology
Algorithms
Animals
Bioinformatics
Biomedical and Life Sciences
Biomedicine
Brain - physiology
Computational Biology/Bioinformatics
Computer Appl. in Life Sciences
Computer Simulation
Electrophysiological recording
Information processing
Male
Models, Neurological
Neurology
Neurosciences
Normal Distribution
Original
Original Article
Oscillations
Rats
Signal Processing, Computer-Assisted
Statistical analysis
Cross-frequency coupling
Olfactory bulb
Phase-amplitude coupling
EEGLAB toolbox
Ketamine induced HFO
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Summary:Phase-amplitude coupling (PAC) is proposed to play an essential role in coordinating the processing of information on local and global scales. In recent years, the methods able to reveal trustworthy PAC has gained considerable interest. However, the intrinsic features of some signals can lead to the identification of spurious or waveform-dependent coupling. This prompted us to develop an easily accessible tool that could be used to differentiate spurious from authentic PAC. Here, we propose a new tool for more reliable detection of PAC named the Extended Modulation Index (eMI) based on the classical Modulation Index measure of coupling. eMI is suitable both for continuous and epoched data and allows estimation of the statistical significance of each pair of frequencies for phase and for amplitude in the whole comodulogram in the framework of extreme value statistics. We compared eMI with the reference PAC measures—direct PAC estimator (a modification of Mean Vector Length) and standard Modulation Index. All three methods were tested using computer-simulated data and actual local field potential recordings from freely moving rats. All methods exhibited similar properties in terms of sensitivity and specificity of PAC detection. eMI proved to be more selective in the dimension of frequency for phase. One of the novelty’s offered by eMI is a heuristic algorithm for classification of PAC as Reliable or Ambiguous . It relies on analysis of the relation between the spectral properties of the signal and the detected coupling. Moreover, eMI generates visualizations that support further evaluation of the coupling properties. It also introduces the concept of the polar phase-histogram to study phase relations of coupled slow and fast oscillations. We discuss the extent to which eMI addresses the known problems of interpreting PAC. The Matlab ® toolbox implementing eMI framework, and the two reference PAC estimators is freely available as EEGLAB plugin at https://github.com/GabrielaJurkiewicz/ePAC .
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ISSN:1539-2791
1559-0089
DOI:10.1007/s12021-020-09487-3