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- Title
P.03 Local Pulse Wave Velocity Estimation using a Double Gaussian Propagation Model.
- Authors
Beutel, Fabian; Van Hoof, Chris; Hermeling, Evelien
- Abstract
Background: Pulse wave velocity (PWV) is an established marker of arterial stiffness [1]. Local PWV estimates, however, are affected by confluence of incident and reflected waves, biasing the spatiotemporal propagation of the systolic foot (SF) in the distension waveform [2-3]. We, therefore, propose a Double Gaussian Propagation Model (DGPM) to estimate PWV in consideration of local wave dynamics. Methods: Ten subjects (38 ± 10 years) were measured in rest for 2 minutes, repeatedly in 3 sessions over 3 weeks. From carotid ultrasonography (Vantage64, VerasonicsInc.,USA), we acquired 32 distension waveforms over a 19 mm wide arterial segment, simultaneously with noninvasive continuous blood pressure (NOVA, FinapresMedicalSystemsB.V., NL). The DGPM, fitted to the detrended second derivative (of the SF-complex, was defined as: with time t[s], segment distance x[m] and 8 parameters modelling all 32 waveforms, i.e. a(mplitude)[a.u.], c(entroid)[s], w(idth) [s] and v(elocity)[m/s] of the forward (1) and backward (2) propagating wave, respectively (see Figure). Quality of fitting (QoF) was assessed as percentage of the waveform accounted by DGPM relative to the mean amplitude. Per cardiac cycle, PWVDGPM (= v1), spatiotemporal PWV(PWVST) from linear regression of SF distances and timings, and Bramwell-Hill PWV (PWVBH) were computed [4]. Pearson correlation coefficients were computed between session means of local PWV measures and PWVBH. Results: The DGPM adequately models the SF-complex (mean QoF = 85% for >20.000 cardiac cycles). For PWVBH, PWVDGPM shows a significantly higher predictive utility compared to PWVST (r: 0.64 vs. 0.10). Conclusion: The proposed DGPM demonstrates significant predictive utility for PWV by accounting for wave confluence. This may facilitate the clinical practicality of local arterial stiffness estimation.
- Subjects
PULSE wave analysis; ARTERIAL diseases; VASCULAR disease diagnosis
- Publication
Artery Research, 2020, Vol 26, pS23
- ISSN
1872-9312
- Publication type
Abstract
- DOI
10.2991/artres.k.201209.017