Title :
Tracking instantaneous pressure-to-flow dynamics of cerebral autoregulation induced by CO2 reactivity
Author :
Jia Liu ; Koochakpour, Hesam ; Panerai, Ronney B. ; Katsogridakis, Emmanuel ; Zuoen Wang ; Simpson, D.M.
Author_Institution :
Guangdong Provincial Key Lab. of Robot. & Intell. Syst., Chinese Univ. of Hong Kong, Shatin, China
Abstract :
In this work, we proposed a novel method to investigate the underlying rapid pressure-to-flow dynamics induced by changes of arterial CO2. Autoregulation was modeled as a multivariate system. The instantaneous effect of CO2 to cerebral blood flow velocity (CBFV) was removed adaptively by the recursive least square (RLS) method from CBFV. The residue CBFV and arterial blood pressure (ABP) were then filtered by a Gaussian-modulated sinusoidal pulse filter, in order to optimize the time and frequency resolution when estimating the instantaneous phase difference between the signals using Hilbert transform (HT). The results indicate that the effect of CO2 on dynamic autoregulation is slower than on CBFV.
Keywords :
Gaussian processes; Hilbert transforms; blood pressure measurement; blood vessels; filtering theory; haemodynamics; least squares approximations; medical signal processing; ABP; CBFV; CO2 reactivity; Gaussian-modulated sinusoidal pulse filter; Hilbert transform; RLS method; arterial blood pressure; cerebral autoregulation; cerebral blood flow velocity; dynamic autoregulation; frequency resolution; multivariate system; recursive least square method; tracking instantaneous pressure-to-flow dynamics; Adaptive filters; Band-pass filters; Blood flow; Data models; Signal resolution; Time-frequency analysis; Transforms;
Conference_Titel :
Engineering in Medicine and Biology Society (EMBC), 2013 35th Annual International Conference of the IEEE
Conference_Location :
Osaka
DOI :
10.1109/EMBC.2013.6610404
