Double-wavelet approach to study frequency and amplitude modulation in renal autoregulation.

Olga Sosnovtseva, A N Pavlov, E Mosekilde, N-H Holstein-Rathlou, D J Marsh

40 Citations (Scopus)

Abstract

Biological time series often display complex oscillations with several interacting rhythmic components. Renal autoregulation, for instance, involves at least two separate mechanisms both of which can produce oscillatory variations in the pressures and flows of the individual nephrons. Using double-wavelet analysis we propose a method to examine how the instantaneous frequency and amplitude of a fast mode is modulated by the presence of a slower mode. Our method is applied both to experimental data from normotensive and hypertensive rats showing different oscillatory patterns and to simulation results obtained from a physiologically based model of the nephron pressure and flow control. We reveal a nonlinear interaction between the two mechanisms that regulate the renal blood flow in the form of frequency and amplitude modulation of the myogenic oscillations.
Original languageEnglish
JournalPhysical Review E (Statistical, Nonlinear, and Soft Matter Physics)
Volume70
Issue number3 Pt 1
Pages (from-to)031915
ISSN1539-3755
Publication statusPublished - 2004

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