High frequency ultrasound nonlinear scattering from porphyrin nanobubbles

•First systematic study of nanobubble acoustics under high frequency imaging conditions.•Nanobubbles exhibit pressure threshold-dependent behaviour.•Implement nonlinear imaging schemes based on nanobubble behaviour.•Multi-pulse schemes leverage threshold behaviour for enhanced contrast imaging. Emer...

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Veröffentlicht in:	Ultrasonics 2021-02, Vol.110, p.106245-106245, Article 106245
Hauptverfasser:	Pellow, Carly, Tan, Josephine, Chérin, Emmanuel, Demore, Christine E.M., Zheng, Gang, Goertz, David E.
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Sprache:	eng
Schlagworte:	High frequency Imaging Multi-pulse schemes Nanobubble Nonlinear scattering Porphyrin
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creator	Pellow, Carly Tan, Josephine Chérin, Emmanuel Demore, Christine E.M. Zheng, Gang Goertz, David E.
description	•First systematic study of nanobubble acoustics under high frequency imaging conditions.•Nanobubbles exhibit pressure threshold-dependent behaviour.•Implement nonlinear imaging schemes based on nanobubble behaviour.•Multi-pulse schemes leverage threshold behaviour for enhanced contrast imaging. Emerging contrast imaging studies have highlighted the potential of nanobubbles for both intravascular and extravascular applications. Reports to date on nanobubbles have generally utilized low frequencies (109 mL−1), and B-mode or contrast-mode on preclinical and clinical systems. However, none of these studies directly examined nanobubble acoustic signatures systematically to implement nonlinear imaging schemes in a methodical manner based on nanobubble behaviour. Here, nanobubble nonlinear behaviour is investigated at high frequencies (12.5, 25, 30 MHz) and low concentration (106 mL−1) in a channel phantom, with different pulse types in single- and multi-pulse sequences to examine behaviour under conditions relevant to high frequency imaging. Porphyrin nanobubbles are demonstrated to initiate nonlinear scattering at high frequencies in a pressure-threshold dependent manner, as previously observed at low frequencies. This threshold behaviour was then utilized to demonstrate enhanced nanobubble imaging with pulse inversion, amplitude modulation, and a combination of the two, progressing towards the improved sensitivity and expanded utility of these ultrasound contrast agents.
doi_str_mv	10.1016/j.ultras.2020.106245
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subjects	High frequency Imaging Multi-pulse schemes Nanobubble Nonlinear scattering Porphyrin
title	High frequency ultrasound nonlinear scattering from porphyrin nanobubbles
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