2014
DOI: 10.1016/j.atherosclerosis.2014.03.008
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Serial F-18-FDG PET/CT distinguishes inflamed from stable plaque phenotypes in shear-stress induced murine atherosclerosis

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Cited by 29 publications
(26 citation statements)
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“…Hypoxia is a prominent feature of the atherosclerotic milieu and associates strongly with the burden of macrophage infiltration and inflammation (41). Animal (42)(43)(44)(45)(46)(47)(48) and human (33,(49)(50)(51) studies have consistently demonstrated a correlation between 18 F-FDG uptake and the presence and density of macrophages in atherosclerosis. 18 F-FDG PET vascular imaging in humans was first described in 1999 in Takayasu's arteritis, before being investigated in other vasculitides (52)(53)(54).…”
Section: F-fdg Detection Of Vascular Inflammationmentioning
confidence: 99%
“…Hypoxia is a prominent feature of the atherosclerotic milieu and associates strongly with the burden of macrophage infiltration and inflammation (41). Animal (42)(43)(44)(45)(46)(47)(48) and human (33,(49)(50)(51) studies have consistently demonstrated a correlation between 18 F-FDG uptake and the presence and density of macrophages in atherosclerosis. 18 F-FDG PET vascular imaging in humans was first described in 1999 in Takayasu's arteritis, before being investigated in other vasculitides (52)(53)(54).…”
Section: F-fdg Detection Of Vascular Inflammationmentioning
confidence: 99%
“…Similar but less pronounced diff erences were observed when segmental F- 18-FDG accumulation normalized to blood radioactivity was assessed. In an experimental model in mice producing infl amed plaques upstream and stable plaques downstream of an implanted device, it was claimed that F-18-FDG can be used to diff erentiate between plaques with infl ammation versus phenotypically stable ones [9]. The in vivo PET imaging, however, revealed no signifi cant diff erence in the targetbackground ratio between these segments.…”
Section: Experimental Modelsmentioning
confidence: 96%
“…For example, Uppal et al [45] combined TOF-MRA and a fibrin-specific contrast agent to simultaneously image fluid flow and plaque formation in the brain (Figure 6B–E). Other groups have targeted fibrin with peptide chains, such as 111 In-labeled EPeP and FibPep, which serve as tracers for SPECT/CT imaging [81,158,159]. These magnetic nanoclusters serve as negative MR contrast agents, though their tendency to cluster and inability to degrade are barriers to clinical translation.…”
Section: Carotid and Cerebrovascular Diseasementioning
confidence: 99%
“…One such method, fluorescence molecular tomography [223], can be used to detect macrophages [224,225] and adhesion molecules within murine plaques [226]. Others have used targeted nanoparticles to image plaques and thrombi using fibrin-binding peptides [81,158,159], smart fluorescent probes that fluoresce upon interaction with proteases [223], and ultrasound-guided echogenic liposomes [227,228]. Additionally, novel dendritic nanoprobes improve PET imaging of ischemic hind-limb mice due to enhanced bioavailability, affinity, and radiostability [229].…”
Section: Emerging Technologies and Future Directionsmentioning
confidence: 99%