2019
DOI: 10.14326/abe.8.110
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Linear and Nonlinear Analysis of the Carotid Sinus Baroreflex Dynamic Characteristics

Abstract: The arterial barore ex system is an important negative feedback system that controls arterial pressure (AP) within a normal range during daily activities. We have analyzed this system in anesthetized animals. Several issues need to be considered: the presence of physiological and measurement noises that interfere with the system identi cation, the closed-loop nature of the arterial barore ex system, the existence of parallel feedback systems that may modify the system responses, and the presence of nonlinear r… Show more

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Cited by 9 publications
(4 citation statements)
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“…S1). BRS was assessed separately during both types of postural changes as supine to stand typically induces a larger BP drop compared to sit to stand, and previous studies reported BRS to behave non-linearly to different degrees of BP drop (Moslehpour et al, 2016;Kawada et al, 2019;Verma et al, 2017).…”
Section: Baroreflex Sensitivitymentioning
confidence: 99%
“…S1). BRS was assessed separately during both types of postural changes as supine to stand typically induces a larger BP drop compared to sit to stand, and previous studies reported BRS to behave non-linearly to different degrees of BP drop (Moslehpour et al, 2016;Kawada et al, 2019;Verma et al, 2017).…”
Section: Baroreflex Sensitivitymentioning
confidence: 99%
“…In each segment, the linear trend was subtracted, and a Hanning window was applied. The transfer function and magnitude‐squared coherence function were computed via standard nonparametric analysis per segment and then ensemble averaged (Bendat & Piersol, 2010; Kawada et al, 2019).…”
Section: Methodsmentioning
confidence: 99%
“…The input power spectra [ S VNS·VNS ( f )], output power spectra [ S HR·HR ( f )], and cross spectra [ S HR·VNS ( f )] were calculated over the eight segments via Fourier transform. The transfer function from VNS to HR was estimated from the following equation (Equation ) (Bendat & Piersol, 2010; Kawada, Mukkamala, et al, 2019):H)(f=SnormalHR·normalVNS)(fSnormalVNS·normalVNS)(f.…”
Section: Methodsmentioning
confidence: 99%
“…The magnitude‐squared coherence function was also calculated from the following equation (Equation ) (Bendat & Piersol, 2010; Kawada, Mukkamala, et al, 2019):Coh)(f=SHR·VNSf2SVNS·VNS)(fSHR·HR)(f.…”
Section: Methodsmentioning
confidence: 99%