Victoria Subritzky-Katz, Aaron L. Sampson, Erik E. Emeric, W. Lipski, Sophia Moreira-González, Jorge González-Martínez, S. Sarma, V. Stuphorn, E. Niebur
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Quantifying Phase- Amplitude Modulation in Neural Data
Phase-amplitude modulation (the modulation of the amplitude of higher frequency oscillations by the phase of lower frequency oscillations) is a specific type of cross-frequency coupling that has been observed in neural recordings from multiple species in a range of behavioral contexts. Given its potential importance, care must be taken with how it is measured and quantified. Previous studies have quantified phase-amplitude modulation by measuring the distance of the amplitude distribution from a uniform distribution. While this method is of general applicability, it is not targeted to the specific modulation pattern frequently observed with low-frequency oscillations. Here we develop a new method that has increased specificity to detect modulation in the sinusoidal shape commonly observed in neural data.
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