2011
DOI: 10.1109/tbme.2010.2097263
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Comparison of RootMUSIC and Discrete Wavelet Transform Analysis of Doppler Ultrasound Blood Flow Waveforms to Detect Microvascular Abnormalities in Type I Diabetes

Abstract: The earliest signs of cardiovascular disease occur in microcirculations. Changes to mechanical and structural properties of these small resistive vessels alter the impedance to flow, subsequent reflected waves, and consequently, flow waveform morphology. In this paper, we compare two frequency analysis techniques: 1) rootMUSIC and 2) the discrete wavelet transform (DWT) to extract features of flow velocity waveform morphology captured using Doppler ultrasound from the ophthalmic artery (OA) in 30 controls and … Show more

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Cited by 10 publications
(17 citation statements)
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“…The resistive index was calculated along standard lines using the maximum and minimum velocities only (1). We used the discrete wavelet transform, a time-frequency signal analysis method, to quantify changes in the Doppler flow waveform structure.…”
Section: Spectral Analysis Of Flow Velocity Waveformsmentioning
confidence: 99%
See 1 more Smart Citation
“…The resistive index was calculated along standard lines using the maximum and minimum velocities only (1). We used the discrete wavelet transform, a time-frequency signal analysis method, to quantify changes in the Doppler flow waveform structure.…”
Section: Spectral Analysis Of Flow Velocity Waveformsmentioning
confidence: 99%
“…1. A detailed mathematical description of the discrete wavelet transform is beyond the scope of this paper (1).…”
Section: Spectral Analysis Of Flow Velocity Waveformsmentioning
confidence: 99%
“…Many researchers relied on different ways, wavelet transform is mostly used because of its efficient properties especially the De-Correlation property of components of image with the high and low frequency content (Übeyl & Inan, 2004) (Agnew et al, 2011) (Florian & Thierry, 2007) (Akhilesh, 2012). Some researchers used discrete wavelet transform (DWT) (Fodor & Kamath, 2003) (Ferreira & Borges, 2003) in ultrasound images.…”
Section: Introductionmentioning
confidence: 99%
“…Traditional time-domain analysis using the resistance index (RI) and pulsatility index (PI) utilizes systolic, diastolic and mean velocities derived from Doppler waveforms to assess the downstream vascular resistance. As these indices are derived from isolated points along the entire waveform, they largely ignore its dynamic nature [14,15,16]. Frequency-domain analysis incorporates the entire waveform data and extracts information from blood flow velocity waveforms not achieved through the use of established time-domain parameters such as the RI and PI [14,16].…”
Section: Introductionmentioning
confidence: 99%
“…As these indices are derived from isolated points along the entire waveform, they largely ignore its dynamic nature [14,15,16]. Frequency-domain analysis incorporates the entire waveform data and extracts information from blood flow velocity waveforms not achieved through the use of established time-domain parameters such as the RI and PI [14,16]. Frequency-domain analysis has also been shown to be superior to conventional time-domain analysis in detecting microvascular abnormalities in patients with diabetes and autoimmune diseases [14,15,16].…”
Section: Introductionmentioning
confidence: 99%