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RESEARCH PRODUCT
Macrophage-Specific Lipid-Based Nanoparticles Improve Cardiac Magnetic Resonance Detection and Characterization of Human Atherosclerosis
Zahi A. FayadZahi A. FayadJuan C. FríasJuan C. FríasVenkatesh ManiGeorge W. VetrovecMichael J. LipinskiValentin FusterVardan AmirbekianVardan AmirbekianJuan Gilberto S. AguinaldoKaren C. Briley-saeboDaniel D. SamberDavis MasseyAntonio Abbatesubject
CD36 AntigensGadoliniumCD36Contrast Media030204 cardiovascular system & hematology030218 nuclear medicine & medical imaging0302 clinical medicineHeterocyclic CompoundsMacrophageMacrophage Scavenger Receptorhealth care economics and organizationsCells CulturedMicroscopy Confocalmedicine.diagnostic_testbiologyrespiratory systemImmunohistochemistryLipidsMagnetic Resonance ImagingRadiology Nuclear Medicine and imagingcardiovascular systemAutopsyCardiology and Cardiovascular Medicinetherapeuticscirculatory and respiratory physiologyinorganic chemicalsAortic Diseaseschemistry.chemical_elementmacrophageAortic diseaseArticle03 medical and health sciencesPredictive Value of TestsLipid based nanoparticlesmedicineOrganometallic CompoundsHumansRadiology Nuclear Medicine and imagingcardiovascular diseasesbusiness.industryMacrophagesSpectrophotometry Atomictechnology industry and agricultureMagnetic resonance imagingBiological TransportAtherosclerosischemistryCancer researchbiology.proteinNanoparticlesCD36Cardiac magnetic resonancebusinessdescription
ObjectivesWe sought to determine whether gadolinium (Gd)-containing lipid-based nanoparticles (NPs) targeting the macrophage scavenger receptor-B (CD36) improve cardiac magnetic resonance (CMR) detection and characterization of human atherosclerosis.BackgroundGd-containing lipid-based NPs targeting macrophages have improved MR detection of murine atherosclerosis.MethodsGadolinium-containing untargeted NPs, anti-CD36 NPs, and nonspecific Fc-NPs were created. Macrophages were incubated with fluorescent targeted and nontargeted NPs to determine uptake via confocal microscopy and inductively coupled plasma mass spectroscopy (ICP-MS) quantified Gd uptake. Human aortic specimens were harvested at autopsy. With a 1.5-T scanner, T1, T2, and PDW 3-dimensional scans were performed along with post-contrast scans after 24 h incubation. The T1 and cluster analyses were performed and compared with immunohistopathology.ResultsThe NPs had a mean diameter of 125 nm and 14,900 Gd-ions, and relaxivity was 37 mmol/l−1s−1 at 1.5-T and 37°C. Confocal microscopy and ICP-MS demonstrated significant in vitro macrophage uptake of targeted NPs, whereas non-targeted NPs had minimal uptake. On T1 imaging, targeted NPs increased contrast-to-noise ratio (CNR) by 52.5%, which was significantly greater than Fc-NPs (CNR increased 17.2%) and nontargeted NPs (CNR increased 18.7%) (p = 0.001). Confocal fluorescent microscopy showed that NPs target resident macrophages, whereas the untargeted NPs and Fc-NPs are found diffusely throughout the plaque. Targeted NPs had a greater signal intensity increase in the fibrous cap compared with non-targeted NPs.ConclusionsMacrophage-specific (CD36) NPs bind human macrophages and improve CMR detection and characterization of human aortic atherosclerosis. Thus, macrophage-specific NPs could help identify high-risk human plaque before the development of an atherothrombotic event.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2009-05-01 | JACC: Cardiovascular Imaging |