Magnetically-coated silica nanospheres for dual-mode imaging at low ultrasound frequency

Fernanda Chiriacò; Giulia Soloperto; Antonio Greco; Francesco Conversano; Andrea Ragusa; Luca Menichetti; Sergio Casciaro

doi:10.4329/wjr.v5.i11.411

Magnetically-coated silica nanospheres for dual-mode imaging at low ultrasound frequency

World J Radiol. 2013 Nov 28;5(11):411-20. doi: 10.4329/wjr.v5.i11.411.

Authors

Fernanda Chiriacò¹, Giulia Soloperto¹, Antonio Greco¹, Francesco Conversano¹, Andrea Ragusa¹, Luca Menichetti¹, Sergio Casciaro¹

Affiliation

¹ Fernanda Chiriacò, Giulia Soloperto, Antonio Greco, Francesco Conversano, Sergio Casciaro, Consiglio Nazionale delle Ricerche, Istituto di Fisiologia Clinica (CNR-IFC) c/o Campus Ecotekne, via per Monteroni, 73100 Lecce, Italy.

Abstract

Aim: To experimentally investigate the acoustical behavior of different dual-mode nanosized contrast agents (NPCAs) for echographic medical imaging at low ultrasound (US) frequency.

Methods: We synthesized three different nanosized structures: (1) Pure silica nanospheres (SiNSs); (2) FePt-iron oxide (FePt-IO)-coated SiNSs; and (3) IO-coated SiNSs, employing three different diameter of SiNS-core (160, 330 and 660 nm). Tissue mimicking phantoms made of agarose gel solution containing 5 mg of different NPCAs in 2 mL-Eppendorf tubes, were insonified by a commercial echographic system at three different low US pulse values (2.5, 3.5 and 4.5 MHz). The raw radiofrequency signal, backscattered from each considered NPCA containing sample, has been processed in order to calculate the US average backscatter intensity and compare the acoustic behavior of the different NPCA types.

Results: The highest US contrast was exhibited by pure SiNSs; FePt-IO-coated SiNSs acoustical behavior followed a similar trend of pure SiNSs with a slight difference in terms of brightness values. The acoustic response of the examined NPCAs resulted function of both SiNS diameter and US frequency. Specifically, higher US frequencies determined higher value of the backscatter for a given SiNS diameter. Frequency-dependent enhancement was marked for pure SiNSs and became less remarkable for FePt-IO-coated SiNSs, whereas IO-coated SiNSs resulted almost unaffected by such frequency variations. Pure and FePt-IO-coated SiNSs evidenced an image backscatter increasing with the diameter up to 330 nm. Conversely, among the types of NPCA tested, IO-coated SiNSs showed the lowest acoustical response for each synthesized diameter and employed US frequency, although a diameter-dependent raising trend was evidenced.

Conclusion: The US characterization of magnetically covered SiNS shows that FePt-IO, rather than IO, was the best magnetic coating for realizing NPCAs suitable for dual mode imaging of deep organs, combining US and magnetic resonance imaging.

Keywords: Contrast agent; Diagnostic imaging; Dual-mode Imaging; Magnetic resonance; Nanocomposite; Ultrasound.