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Determination of Coronary Calcium
In many laboratories, calcium scoring is performed before coronary CT angiography (CTA) is (contingently) performed. If the score (for example, the Agatston score) is above a certain amount (for example, >600) the coronary CTA is not performed, because the CTA image quality is not likely to be adequate in the presence of extensive calcification. Thus, calcium scoring as an initial scan may obviate the radiation exposure of CTA.
According to the 1996 ACC/AHA Consensus Statement, “coronary calcification is part of the development of atherosclerosis; it occurs exclusively in atherosclerotic arteries and is absent in the normal vessel wall.” Calcium is a component of some, but not all, coronary atherosclerotic plaques. Calcium accounts for, on average, approximately 20% of the plaque volume, but there is wide variation in the amount of calcium within plaques, and a large plaque or severe stenosis may exist without calcification.
In general (but not always), coronary calcium correlates with plaque volume. CT determinations of coronary calcium compared with those obtained by intravascular ultrasound (IVUS) are excellent.
CT scanning is exquisitely sensitive to the presence of calcification and is easily the best test to detect calcification. The ability of CT to image, and then to quantify, coronary calcium with a calcium “score” launched an entire field of investigation.
Other cardiac structures within the heart and potentially near the coronary arteries, such as the aortic root, valve annuli, valves, pericardium, and myocardium, may calcify, as may other vessels.
Calcium Assessment by Cardiovascular CT is Possible by Different Methods
Cardiovascular CT may be used to assess calcium by any of the following methods:
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Agatston score
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Volume score
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Calcium mass score
Agatston Score
The Agatston score, the original means by which coronary calcification was quantified, was derived from the use of electron beam CT (EBCT) scanning. Calcium scoring by EBCT and cardiac CT, though, are not wholly equivalent.
Most of the literature on coronary calcification was derived using Agatston scoring on now-obsolete EBCT equipment. The determination of coronary calcification by other scores has less presence in the literature.
The Agatston score was derived from two-dimensional axial scans with 3-mm slice thickness, with calcium weighted according to its density as determined by HU (higher weight for greater HUs).
The first problem encountered with calcium scoring by the Agatston EBCT method was reproducibility: its accuracy was ±14% to ±51% (±40% average). Reproducibility even by now-obsolete four-slice CCT appeared superior: ±20%, and by 16-slice CCT reproducibility was even greater: ±13%. The better reproducibility of Agatston score by CCT may be the result of better spatial resolution.
The Agatston score is vulnerable to the partial volume effect. Phantom studies suggest that body size and level of scanning influence attenuation and calcium score. As the intra- and interobserver variability of coronary artery calcium scores by EBCT technology are low, ECG gating should be used to reduce the variability.
Agatston calcium scoring is influenced by the different equipment used for the scan.
In general, the literature suggests that coronary calcium scores lower than 400 by CCT and EBCT are similar but that older-generation CCT may not yield the same correlation as do more contemporary CCT scanners.
Problems with the Agatston score include:
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Susceptibility to partial volume effects
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Submitral annular calcium sampling
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Effects of slice thickness
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Effects of cardiac motion
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Very long breath-holds needed in EBCT systems
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Variability depending on the type and make of equipment used
Use of average density improves reproducibility.
Calcium Volume
The calcium volume score is the product of the number of voxels exceeding threshold multiplied by the volume of a voxel. It is theoretically independent of slice thickness—an improvement over the Agatston score. Calcium volume appears more reproducible than Agatston score: ±14%. However, calcium volume does not have as much literature to back it up.
Calcium (“Hydroxyapatite” or “Mineral”) Mass
Use of calcium or hydroxyapatite (HA) mass as a measure of the total amount of calcification offers improvements over the Agatston score but does not have as much literature to support it. It has become a preferred means of describing coronary calcium because it:
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Automatically adjusts/corrects for partial volume effects
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Is less affected by scan parameters
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Has the best reproducibility: ±9%
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Correlates well with Agatston score: r 2 = 0.97, y − 0.1922 x ( Table 14-1 )
TABLE 14-1Variation of Agatston Score and Mass Score by EBCT and CCTEBCT CCT PROSPECTIVE CCT RETROSPECTIVE CCT RETROSPECTIVE CCT RETROSPECTIVE Width 3 mm 4 x 2.5 mm 4 x 2.5 mm 4 x 2.5 mm 4 x 1.0 mm Agatston Score Mean 35.5 20.8 21.6 24.1 28.8 σ 3.3 5.8 6.1 4.8 1.6 CV(%) 9.3 27.9 28.3 19.8 5.9 HA Mass Mean 6.3 3.9 4.2 4.8 4.9 σ 0.3 0.9 1.0 0.8 0.2 CV(%) 5.3 22.2 23.9 16.1 4.1 CCT, cardiac CT; CV(%), mean coefficient of variance = σ/mean 10 ; EBCT, electron beam CT; HA, hydroxyapatite.
Mass score is 0.2 times the Agatston score.
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