Acoustic characterization of a new trisacryl contrast agent. Part II: Flow phantom study and in vivo quantification |
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Authors: | Lavisse Sonia Peronneau Pierre Rouffiac Valerie Paci Angelo Vigouroux Julie Opolon Paule Roche Alain Lassau Nathalie |
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Affiliation: | a Universite de Paris-Sud, Imaging Department and UPRES EA 4040, Orsay F-91405, Institut Gustave Roussy, 39, Rue Camille Desmoulins, 94805 Villejuif Cedex, France b Département de Pharmacie Clinique, Institut Gustave Roussy, Villejuif, France c UMR8121 Vectorisation et transfert de gènes, Institut Gustave Roussy, Villejuif, France |
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Abstract: | The biocompatible trisacryl particles (TMP) are made of a cross-linked acrylic copolymer. Their inherent acoustic properties, studied for a contrast agent application, have been previously demonstrated in a in vitro Couette device. To measure their acoustic behaviour under circulating blood conditions, the TMP backscatter enhancement was further evaluated on a home-made flow phantom at different TMP doses (0.12-15.6 mg/ml) suspended in aqueous and blood media, and in nude mice (aorta and B16 grafted melanoma). Integrated backscatter (IB) was measured by spectral analysis of the Doppler signals recorded from an ultrasound system (Aplio®) combined with a 12-MHz probe. Doppler phantom experiments revealed a maximal IB of 17 ± 0.88 dB and 7.5 ± 0.7 dB in aqueous and blood media, respectively. IB measured on mice aorta, in pulsed Doppler mode, confirmed a constant maximal value of 7.29 ± 1.72 dB over the first minutes after injection of a 7.8 mg/ml TMP suspension. Following the injection, a 60% enhancement of intratumoral vascularization detection was observed in power Doppler mode. A preliminary histological study revealed inert presence of some TMP in lungs 8 and 16 days after injection.Doppler phantom experiments on whole blood allowed to anticipate the in vivo acoustic behaviour. Both protocols demonstrated TMP effectiveness in significantly increasing Doppler signal intensity and intratumoral vascularization detection. However, it was also shown that blood conditions seemed to shadow the TMP contrast effect, as compared to in vitro observations. These results encourage further investigations on the specific TMP targeting and on their bio-distribution in the different tissues. |
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Keywords: | Ultrasound Contrast agent Polymeric microparticle Trisacryl In vivo B16 melanoma Doppler spectrum Integrated backscattering |
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