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Literature DB >> 33297761

Coronary ¹⁸F-Fluoride Uptake and Progression of Coronary Artery Calcification.

Mhairi K Doris¹, Mohammed N Meah¹, Alastair J Moss¹, Jack P M Andrews¹, Rong Bing¹, Rebecca Gillen², Nick Weir², Maaz Syed¹, Marwa Daghem¹, Anoop Shah¹, Michelle C Williams^1,2, Edwin J R van Beek^1,2, Laura Forsyth³, Damini Dey⁴, Piotr J Slomka⁴, Marc R Dweck¹, David E Newby^1,2, Philip D Adamson^1,5.

Abstract

Background Positron emission tomography (PET) using 18F-sodium fluoride (18F-fluoride) to detect microcalcification may provide insight into disease activity in coronary atherosclerosis. This study aimed to investigate the relationship between 18F-fluoride uptake and progression of coronary calcification in patients with clinically stable coronary artery disease. Methods Patients with established multivessel coronary atherosclerosis underwent 18F-fluoride PET-computed tomography angiography and computed tomography calcium scoring, with repeat computed tomography angiography and calcium scoring at one year. Coronary PET uptake was analyzed qualitatively and semiquantitatively in diseased vessels by measuring maximum tissue-to-background ratio. Coronary calcification was quantified by measuring calcium score, mass, and volume. Results In a total of 183 participants (median age 66 years, 80% male), 116 (63%) patients had increased 18F-fluoride uptake in at least one vessel. Individuals with increased 18F-fluoride uptake demonstrated more rapid progression of calcification compared with those without uptake (change in calcium score, 97 [39-166] versus 35 [7-93] AU; P<0.0001). Indeed, the calcium score only increased in coronary segments with 18F-fluoride uptake (from 95 [30-209] to 148 [61-289] AU; P<0.001) and remained unchanged in segments without 18F-fluoride uptake (from 46 [16-113] to 49 [20-115] AU; P=0.329). Baseline coronary 18F-fluoride maximum tissue-to-background ratio correlated with 1-year change in calcium score, calcium volume, and calcium mass (Spearman ρ=0.37, 0.38, and 0.46, respectively; P<0.0001 for all). At the segmental level, baseline 18F-fluoride activity was an independent predictor of calcium score at 12 months (P<0.001). However, at the patient level, this was not independent of age, sex, and baseline calcium score (P=0.50). Conclusions Coronary 18F-fluoride uptake identifies both patients and individual coronary segments with more rapid progression of coronary calcification, providing important insights into disease activity within the coronary circulation. At the individual patient level, total calcium score remains an important marker of disease burden and progression. Registration: URL: https://www.clinicaltrials.gov; Unique identifier: NCT02110303.

Entities: Chemical

Keywords: atherosclerosis; calcium; coronary angiography; positron emission tomography; risk factors

Mesh：

Substances：

Year: 2020 PMID： 33297761 PMCID： PMC7771641 DOI： 10.1161/CIRCIMAGING.120.011438

Source DB: PubMed Journal: Circ Cardiovasc Imaging ISSN： 1941-9651 Impact factor: 7.792

32 in total

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2. A reporting system on patients evaluated for coronary artery disease. Report of the Ad Hoc Committee for Grading of Coronary Artery Disease, Council on Cardiovascular Surgery, American Heart Association.

Authors: W G Austen; J E Edwards; R L Frye; G G Gensini; V L Gott; L S Griffith; D C McGoon; M L Murphy; B B Roe
Journal: Circulation Date: 1975-04 Impact factor: 29.690

3. Prognostic value of coronary CT angiography and calcium score for major adverse cardiac events in outpatients.

Authors: Zhi-hui Hou; Bin Lu; Yang Gao; Shi-liang Jiang; Yang Wang; Wei Li; Matthew J Budoff
Journal: JACC Cardiovasc Imaging Date: 2012-10

Review 4. The role of positron emission tomography in skeletal disease.

Authors: G J Cook; I Fogelman
Journal: Semin Nucl Med Date: 2001-01 Impact factor: 4.446

5. The napkin-ring sign indicates advanced atherosclerotic lesions in coronary CT angiography.

Authors: Pál Maurovich-Horvat; Christopher L Schlett; Hatem Alkadhi; Masataka Nakano; Fumiyuki Otsuka; Paul Stolzmann; Hans Scheffel; Maros Ferencik; Matthias F Kriegel; Harald Seifarth; Renu Virmani; Udo Hoffmann
Journal: JACC Cardiovasc Imaging Date: 2012-12

6. Reproducibility of coronary artery calcified plaque with cardiac 64-MDCT: the Multi-Ethnic Study of Atherosclerosis.

Authors: Matthew Jay Budoff; Robyn L McClelland; Hyoju Chung; Nathan D Wong; J Jeffrey Carr; Michael McNitt-Gray; Roger S Blumenthal; Robert C Detrano
Journal: AJR Am J Roentgenol Date: 2009-03 Impact factor: 3.959

7. Progression of coronary artery calcium and risk of first myocardial infarction in patients receiving cholesterol-lowering therapy.

Authors: Paolo Raggi; Tracy Q Callister; Leslee J Shaw
Journal: Arterioscler Thromb Vasc Biol Date: 2004-04-01 Impact factor: 8.311

8. Combined FDG and [F-18]fluoride whole-body PET: a feasible two-in-one approach to cancer imaging?

Authors: S Hoegerle; F Juengling; A Otte; C Altehoefer; E A Moser; E U Nitzsche
Journal: Radiology Date: 1998-10 Impact factor: 11.105

9. Computed tomographic angiography characteristics of atherosclerotic plaques subsequently resulting in acute coronary syndrome.

Authors: Sadako Motoyama; Masayoshi Sarai; Hiroto Harigaya; Hirofumi Anno; Kaori Inoue; Tomonori Hara; Hiroyuki Naruse; Junichi Ishii; Hitoshi Hishida; Nathan D Wong; Renu Virmani; Takeshi Kondo; Yukio Ozaki; Jagat Narula
Journal: J Am Coll Cardiol Date: 2009-06-30 Impact factor: 24.094

Review 10. Small entities with large impact: microcalcifications and atherosclerotic plaque vulnerability.

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5. ¹⁸F-fluorodeoxyglucose and ¹⁸F-sodium fluoride for imaging atherosclerotic plaque activity.

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Journal: J Nucl Cardiol Date: 2022-03-11 Impact factor: 3.872

6. Statin Effects on Vascular Calcification: Microarchitectural Changes in Aortic Calcium Deposits in Aged Hyperlipidemic Mice.

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Review 7. Lipids and cardiovascular calcification: contributions to plaque vulnerability.

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