Myocardial delivery of colloid nanoparticles using ultrasound-targeted microbubble destruction

doi:10.1093/eurheartj/ehi479

European Heart Journal Advance Access originally published online on September 15, 2005
European Heart Journal 2006 27(2):237-245; doi:10.1093/eurheartj/ehi479

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Myocardial delivery of colloid nanoparticles using ultrasound-targeted microbubble destruction

David Vancraeynest, Xavier Havaux, Anne-Catherine Pouleur, Agnès Pasquet, Bernhard Gerber, Christophe Beauloye, Patrick Rafter, Luc Bertrand and Jean-Louis J. Vanoverschelde^*

Division of Cardiology, Cliniques Universitaires St-Luc, Université catholique de Louvain, Avenue Hippocrate, 10-2881, B-1200 Brussels, Belgium

Received 25 March 2005; revised 28 July 2005; accepted 11 August 2005; online publish-ahead-of-print 15 September 2005.

^* Corresponding author. Tel: +32 2 764 28 03; fax: +32 2 764 89 80. E-mail address: vanoverschelde{at}card.ucl.ac.be

Aims Ultrasound (US)-targeted microbubble destruction (UTMD)is a promising method for delivering genetic material to theheart. The aim of this study was: (i) to test whether colloidnanoparticles can be delivered to the rat myocardium using UTMD;and (ii) to determine whether tissue damage and contractiledysfunction occurs in hearts exposed to UTMD in vivo.

Methods and results Hearts from anaesthetized rats were exposedto perfluorocarbon-enhanced sonicated dextrose albumin (PESDA)(at two different microbubble concentrations) and US at peakpressures of 0.6, 1.2, or 1.8 MPa for 1, 3, or 9 min.During US, pairs of 30 and 100 nm fluorescent nanosphereswere infused intravenously. Left ventricular function was assessedbefore and immediately after US, as well as at 24 h and7 days. At the end of the experiments, the number of rupturedmicrovessels and the amount of nanospheres deposited were quantified.Rats exposed to PESDA alone or US alone showed no functionalabnormalities, no capillary ruptures, and no nanosphere delivery.In contrast, rats exposed to both PESDA and US exhibited microvascularruptures and nanosphere deposits. They also showed transientcontractile dysfunction and premature ventricular contractions.All these changes were time-, US peak pressure-, and PESDA concentration-dependent.

Conclusion UTMD allows colloid nanoparticles to be deliveredto the rat myocardium through microvessel rupture sites. Theefficacy of delivery depends on the peak pressure applied, theduration of US exposure, and contrast concentration. UTMD alsocauses time- and peak pressure-dependent contractile dysfunction,and tissue alterations that are spontaneously reversible overtime.

Key Words: Contrast echocardiography • Local delivery

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