Determinants of Vascular Inflammation by 18-Fluorodeoxyglucose Pet/Mri: Findings from the Psoriasis, Atherosclerosis and Cardiometabolic Disease Initiative

Kabbany, MT; Joshi, AA; Ahlman, Mark A.; Rodante, Justin; Lerman, Joseph B; Aberra, Tsion; Silverman, Joanna I; Dahiya, Asha K.; Bluemke, D.; Playford, MP; Mehta, NN

doi:10.1136/jim-2016-000080.37

Journal of Investigative Medicine

2016

DOI: 10.1136/jim-2016-000080.37

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Determinants of Vascular Inflammation by 18-Fluorodeoxyglucose Pet/Mri: Findings from the Psoriasis, Atherosclerosis and Cardiometabolic Disease Initiative

MT Kabbany

AA Joshi

Mark A. Ahlman

et al.

Abstract: Purpose of StudyPsoriasis (PSO), a chronic inflammatory disease associated with increased CV risk, provides a clinical human model to study inflammatory atherogenesis. We aimed to assess the major determinants of vascular inflammation (VI) measured by 18FDG PET-MRI in a well-phenotyped PSO cohort.Methods Used124 consecutive patients with PSO underwent 18FDG PET-MRI scans. We used target-to-background ratio to quantify VI 120 minutes post FDG injection. Homeostatic model assessment of insulin resistance (HOMA-I… Show more

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The biological applications of near-infrared optical nanomaterials in atherosclerosis

Shen,

Bi,

et al. 2024

J Nanobiotechnol

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Purpose of review Atherosclerosis, a highly pathogenic and lethal disease, is difficult to locate accurately via conventional imaging because of its scattered and deep lesions. However, second near-infrared (NIR-II) nanomaterials show great application potential in the tracing of atherosclerotic plaques due to their excellent penetration and angiographic capabilities. Recent findings With the development of nanotechnology, among many nanomaterials available for the visual diagnosis and treatment of cardiovascular diseases, optical nanomaterials provide strong support for various biomedical applications because of their advantages, such as noninvasive, nondestructive and molecular component imaging. Among optical nanomaterials of different wavelengths, NIR-II-range (900 ~ 1700 nm) nanomaterials have been gradually applied in the visual diagnosis and treatment of atherosclerosis and other vascular diseases because of their deep biological tissue penetration and limited background interference. Summary This review explored in detail the prospects and challenges of the biological imaging and clinical application of NIR-II nanomaterials in treating atherosclerosis. Graphical abstract

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The biological applications of near-infrared optical nanomaterials in atherosclerosis

Shen,

Bi,

et al. 2024

J Nanobiotechnol

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show abstract

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Determinants of Vascular Inflammation by 18-Fluorodeoxyglucose Pet/Mri: Findings from the Psoriasis, Atherosclerosis and Cardiometabolic Disease Initiative

Cited by 1 publication

References 0 publications

The biological applications of near-infrared optical nanomaterials in atherosclerosis

The biological applications of near-infrared optical nanomaterials in atherosclerosis

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