Aim: One of the features of high-risk atherosclerotic plaques is the preponderance of macrophages. Gadolinium(III)-gold nanorods (Gd(III)-GNRs) have been developed as a dual-modality probe for MRI and photoacoustic imaging (PAI) to trace macrophages for determining the degree of inflammation.
Materials & methods: Gd(III)-GNRs were utilized for MRI and PAI dual-modality detection of macrophages in living mice and ex vivo simulated macrophage-rich plaque.
Results: Gd(III)-GNRs were shown to be endocytosed by macrophages in vitro. Macrophages labeled with Gd(III)-GNRs were detected by both PAI and MRI. With Gd(III)-GNRs, it is possible to institute a multiscale complementary imaging protocol: MRI can screen to identify the location of the probe-phagocytosed macrophages, and intravascular PAI provides a subsequent precise morphology to quantify the infiltration area and invasion depth of macrophages in the arterial wall.
Conclusion: This new dual-modality nanoparticle approach has promise for enabling quantitative detection of macrophages in atherosclerotic plaques.