Effect of Clutter Filter in High-Frame-Rate Ultrasonic Backscatter Coefficient Analysis

High-frame-rate imaging with a clutter filter can clearly visualize blood flow signals and provide more efficient discrimination with tissue signals. In vitro studies using clutter-less phantom and high-frequency ultrasound suggested a possibility of evaluating the red blood cell (RBC) aggregation b...

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Autores principales: Omura, Masaaki, Yagi, Kunimasa, Nagaoka, Ryo, Yoshida, Kenji, Yamaguchi, Tadashi, Hasegawa, Hideyuki
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10007061/
https://www.ncbi.nlm.nih.gov/pubmed/36904843
http://dx.doi.org/10.3390/s23052639
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author Omura, Masaaki
Yagi, Kunimasa
Nagaoka, Ryo
Yoshida, Kenji
Yamaguchi, Tadashi
Hasegawa, Hideyuki
author_facet Omura, Masaaki
Yagi, Kunimasa
Nagaoka, Ryo
Yoshida, Kenji
Yamaguchi, Tadashi
Hasegawa, Hideyuki
author_sort Omura, Masaaki
collection PubMed
description High-frame-rate imaging with a clutter filter can clearly visualize blood flow signals and provide more efficient discrimination with tissue signals. In vitro studies using clutter-less phantom and high-frequency ultrasound suggested a possibility of evaluating the red blood cell (RBC) aggregation by analyzing the frequency dependence of the backscatter coefficient (BSC). However, in in vivo applications, clutter filtering is required to visualize echoes from the RBC. This study initially evaluated the effect of the clutter filter for ultrasonic BSC analysis for in vitro and preliminary in vivo data to characterize hemorheology. Coherently compounded plane wave imaging at a frame rate of 2 kHz was carried out in high-frame-rate imaging. Two samples of RBCs suspended by saline and autologous plasma for in vitro data were circulated in two types of flow phantoms without or with clutter signals. The singular value decomposition was applied to suppress the clutter signal in the flow phantom. The BSC was calculated using the reference phantom method, and it was parametrized by spectral slope and mid-band fit (MBF) between 4–12 MHz. The velocity distribution was estimated by the block matching method, and the shear rate was estimated by the least squares approximation of the slope near the wall. Consequently, the spectral slope of the saline sample was always around four (Rayleigh scattering), independently of the shear rate, because the RBCs did not aggregate in the solution. Conversely, the spectral slope of the plasma sample was lower than four at low shear rates but approached four by increasing the shear rate, because the aggregations were presumably dissolved by the high shear rate. Moreover, the MBF of the plasma sample decreased from [Formula: see text] 36 to [Formula: see text] 49 dB in both flow phantoms with increasing shear rates, from approximately 10 to 100 s(−1). The variation in the spectral slope and MBF in the saline sample was comparable to the results of in vivo cases in healthy human jugular veins when the tissue and blood flow signals could be separated.
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spelling pubmed-100070612023-03-12 Effect of Clutter Filter in High-Frame-Rate Ultrasonic Backscatter Coefficient Analysis Omura, Masaaki Yagi, Kunimasa Nagaoka, Ryo Yoshida, Kenji Yamaguchi, Tadashi Hasegawa, Hideyuki Sensors (Basel) Article High-frame-rate imaging with a clutter filter can clearly visualize blood flow signals and provide more efficient discrimination with tissue signals. In vitro studies using clutter-less phantom and high-frequency ultrasound suggested a possibility of evaluating the red blood cell (RBC) aggregation by analyzing the frequency dependence of the backscatter coefficient (BSC). However, in in vivo applications, clutter filtering is required to visualize echoes from the RBC. This study initially evaluated the effect of the clutter filter for ultrasonic BSC analysis for in vitro and preliminary in vivo data to characterize hemorheology. Coherently compounded plane wave imaging at a frame rate of 2 kHz was carried out in high-frame-rate imaging. Two samples of RBCs suspended by saline and autologous plasma for in vitro data were circulated in two types of flow phantoms without or with clutter signals. The singular value decomposition was applied to suppress the clutter signal in the flow phantom. The BSC was calculated using the reference phantom method, and it was parametrized by spectral slope and mid-band fit (MBF) between 4–12 MHz. The velocity distribution was estimated by the block matching method, and the shear rate was estimated by the least squares approximation of the slope near the wall. Consequently, the spectral slope of the saline sample was always around four (Rayleigh scattering), independently of the shear rate, because the RBCs did not aggregate in the solution. Conversely, the spectral slope of the plasma sample was lower than four at low shear rates but approached four by increasing the shear rate, because the aggregations were presumably dissolved by the high shear rate. Moreover, the MBF of the plasma sample decreased from [Formula: see text] 36 to [Formula: see text] 49 dB in both flow phantoms with increasing shear rates, from approximately 10 to 100 s(−1). The variation in the spectral slope and MBF in the saline sample was comparable to the results of in vivo cases in healthy human jugular veins when the tissue and blood flow signals could be separated. MDPI 2023-02-27 /pmc/articles/PMC10007061/ /pubmed/36904843 http://dx.doi.org/10.3390/s23052639 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Omura, Masaaki
Yagi, Kunimasa
Nagaoka, Ryo
Yoshida, Kenji
Yamaguchi, Tadashi
Hasegawa, Hideyuki
Effect of Clutter Filter in High-Frame-Rate Ultrasonic Backscatter Coefficient Analysis
title Effect of Clutter Filter in High-Frame-Rate Ultrasonic Backscatter Coefficient Analysis
title_full Effect of Clutter Filter in High-Frame-Rate Ultrasonic Backscatter Coefficient Analysis
title_fullStr Effect of Clutter Filter in High-Frame-Rate Ultrasonic Backscatter Coefficient Analysis
title_full_unstemmed Effect of Clutter Filter in High-Frame-Rate Ultrasonic Backscatter Coefficient Analysis
title_short Effect of Clutter Filter in High-Frame-Rate Ultrasonic Backscatter Coefficient Analysis
title_sort effect of clutter filter in high-frame-rate ultrasonic backscatter coefficient analysis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10007061/
https://www.ncbi.nlm.nih.gov/pubmed/36904843
http://dx.doi.org/10.3390/s23052639
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