Coronary CT calcium scan

Coronary CT calcium scan
Purposeassessment of severity of coronary artery disease

A coronary CT calcium scan is a computed tomography (CT) scan of the heart for the assessment of severity of coronary artery disease. Specifically, it looks for calcium deposits in atherosclerotic plaques in the coronary arteries that can narrow arteries and increase the risk of heart attack.[1] These plaques are the cause of most heart attacks, and become calcified as they develop.

These calcifications can be detected by CT imaging because of their opacity to x-rays. This severity can be presented as an Agatston score or coronary artery calcium (CAC) score. The CAC score is an independent marker of risk for cardiac events, cardiac mortality, and all-cause mortality.[2] In addition, it provides additional prognostic information to other cardiovascular risk markers.[2]

Obstructions may be present even with an Agatston score of zero, especially in younger patients.[3] A typical coronary CT calcium scan is done without the use of radiocontrast agent but it can also be performed using contrast-enhanced images as well, such as in coronary CT angiography.[4] The exam is best performed with cardiac gating to eliminate motion but can also be estimated in the presence of motion.

Indications

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The well-established indications for the use of the CAC score include stratification of global cardiovascular risk for asymptomatic patients: intermediate risk based on the Framingham risk score (class I); low risk based on a family history of early coronary artery disease (CAD) (class IIa); and low-risk patients with diabetes (class IIa).[2]

In symptomatic patients, the pre-test probability should always be given weight in the interpretation of the CAC score as a filter or tool to indicate the best method to facilitate the diagnosis. Therefore, the use of the CAC score alone is limited in symptomatic patients.[2]

In patients with diabetes, the CAC score helps identify the individuals most at risk, who could benefit from screening for silent ischemia and from more aggressive clinical treatment.[2]

However, coronary CT angiography (CTA) is superior to coronary CT calcium scanning in determining the risk of Major Adverse Cardiac Events (MACE).[5]

There is potential to measure CAC on chest radiographs taken for other indications, possibly allowing some primary screening for coronary artery disease without adding to radiation exposure and with minimal marginal cost.[6]

Agatston score

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Lesion specific calcium score

The Agatston score, named after its developer Arthur Agatston, is a measure of calcium on a coronary CT calcium scan.[7] The original work, published in 1990,[8] was based on electron beam computed tomography (also known as ultrafast CT or EBCT). The score is calculated using a weighted value assigned to the highest density of calcification in a given coronary artery.

The density is measured in Hounsfield units, and score of 1 for 130–199 HU, 2 for 200–299 HU, 3 for 300–399 HU, and 4 for 400 HU and greater. This weighted score is then multiplied by the area (in square millimeters) of the coronary calcification. For example, a "speck" of coronary calcification in the left anterior descending artery measures 4 square millimeters and has a peak density of 270 HU. The score is therefore 8 (4 square millimeters × weighted score of 2).

The tomographic slices of the heart are 3 millimeters thick and average about 50–60 slices from the coronary artery ostia to the inferior wall of the heart. The calcium score of every calcification in each coronary artery for all of the tomographic slices is then summed up to give the total coronary artery calcium score (CAC score).[9]

The Agatston score is frequently used today because of its long history of clinical validation. Several variations of the Agatston score have been described, including mass-based calcium scoring, volume-based calcium scoring, or lesion-specific calcium-scoring have been developed.[10]

Lesion-specific calcium score

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A lesion-specific calcium score has been developed.[11] Each individual calcified lesion is characterized and measured using parameters including the width, length, density, and distance from the entrance of the major coronary arteries.[12] Research has shown that the lesion-specific calcium scoring method is superior to the traditional Agatston score for the prediction of significant blockages in the heart.[10]

Radiation dosage

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On average, a single scan will expose a patient to about 2.3 millisieverts of radiation, equivalent to 23 chest x-rays (front and side views).[13][14] That average covers a wide range of doses depending on equipment type and scanning protocol. Using modern equipment and protocols, a 1 millisievert exposure is possible.[15] Because the exact radiation exposure for a specific patient depends on the equipment type in use, the patients build and a variety of scanning options (such as retrospective vs prospective gating) it is difficult for a patient to know what their radiation exposure will be.

A 2009 study indicated that for every 100,000 people screened with CAC testing every 5 years between ages 45 to 75 years (men) or 55 to 75 years (women), there would be 42 (men) or 62 (women) additional radiation induced cancer cases.[13]

References

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  1. ^ "Heart scan (coronary calcium scan)". Mayo Clinic. Retrieved 9 August 2015.
  2. ^ a b c d e Neves PO, Andrade J, Monção H (2017). "Coronary artery calcium score: current status". Radiologia Brasileira. 50 (3): 182–189. doi:10.1590/0100-3984.2015.0235. PMC 5487233. PMID 28670030. CC BY 4.0
  3. ^ Bødtker Mortensen M, et al, "Association of age with the diagnostic value of coronary artery calcium score for ruling out coronary stenosis in symptomatic patients", JAMA Cardiol, October 27, 2021 DOI:10.1001/jamacardio.2021.4406.
  4. ^ van der Bijl N, Joemai RM, Geleijns J, Bax JJ, Schuijf JD, de Roos A, Kroft LJ (December 2010). "Assessment of Agatston coronary artery calcium score using contrast-enhanced CT coronary angiography". AJR. American Journal of Roentgenology. 195 (6): 1299–305. doi:10.2214/AJR.09.3734. PMID 21098187.
  5. ^ Zhi-hui Hou; Bin Lu; Yang Gao; Shi-liang Jiang; Yang Wang; Wei Li; Matthew J. Budoff (2012). "Prognostic Value of Coronary CT Angiography and Calcium Score for Major Adverse Cardiac Events in Outpatients". JACC: Cardiovascular Imaging. 5 (10): 990–999. doi:10.1016/j.jcmg.2012.06.006. PMID 23058065. Retrieved April 9, 2015.
  6. ^ Hughes-Austin JM, Dominguez A, Allison MA, Wassel CL, Rifkin DE, Morgan CG, Daniels MR, Ikram U, Knox JB, Wright CM, Criqui MH, Ix JH (February 2016). "Relationship of Coronary Calcium on Standard Chest CT Scans With Mortality". JACC: Cardiovascular Imaging. 9 (2): 152–9. doi:10.1016/j.jcmg.2015.06.030. PMC 4744104. PMID 26777213.
  7. ^ Hoffmann U, Brady TJ, Muller J (August 2003). "Cardiology patient page. Use of new imaging techniques to screen for coronary artery disease". Circulation. 108 (8): e50-3. doi:10.1161/01.CIR.0000085363.88377.F2. PMID 12939244.
  8. ^ Agatston, Arthur S.; Janowitz, Warren R.; Hildner, Frank J.; Zusmer, Noel R.; Viamonte, Manuel; Detrano, Robert (March 1990). "Quantification of coronary artery calcium using ultrafast computed tomography". Journal of the American College of Cardiology. 15 (4): 827–832. doi:10.1016/0735-1097(90)90282-t. PMID 2407762.
  9. ^ Divakaran, S.; Cheezum, M. K.; Hulten, E. A.; Bittencourt, M. S.; Silverman, M. G.; Nasir, K.; Blankstein, R. (February 2015). "Use of cardiac CT and calcium scoring for detecting coronary plaque: implications on prognosis and patient management". The British Journal of Radiology. 88 (1046): 20140594. doi:10.1259/bjr.20140594. ISSN 1748-880X. PMC 4614250. PMID 25494818.
  10. ^ a b Qian Z, Anderson H, Marvasty I, Akram K, Vazquez G, Rinehart S, Voros S (2010). "Lesion- and vessel-specific coronary artery calcium scores are superior to whole-heart Agatston and volume scores in the diagnosis of obstructive coronary artery disease". Journal of Cardiovascular Computed Tomography. 4 (6): 391–9. doi:10.1016/j.jcct.2010.09.001. PMID 21035423.
  11. ^ Akram K, Voros S (October 2008). "Absolute coronary artery calcium scores are superior to MESA percentile rank in predicting obstructive coronary artery disease". The International Journal of Cardiovascular Imaging. 24 (7): 743–9. doi:10.1007/s10554-008-9305-5. PMID 18351440. S2CID 565168.
  12. ^ Qian Z, Marvasty I, Anderson H, Rinehart S, Voros S (June 2009). "Lesion-specific coronary artery calcium quantification better predicts cardiac events". 2009 IEEE International Symposium on Biomedical Imaging: From Nano to Macro. IEEE. pp. 237–240. doi:10.1109/ISBI.2009.5193027. ISBN 978-1-4244-3931-7. S2CID 14169702. {{cite book}}: |journal= ignored (help)
  13. ^ a b Kim, Kwang Pyo; Einstein, Andrew J.; Berrington de González, Amy (2009-07-13). "Coronary Artery Calcification Screening". Archives of Internal Medicine. 169 (13). American Medical Association (AMA): 1188–94. doi:10.1001/archinternmed.2009.162. ISSN 0003-9926. PMC 2765044. PMID 19597067.
  14. ^ [1] Radiation Dose in X-Ray and CT Exams, Radiologyinfo.org
  15. ^ Patel, Amish; Budoff, Matthew; Fine, Jeffrey J. (2016). "Coronary Calcium Scans And Radiation Exposure In The Society For Heart Attack Prevention And Eradication Cohort". Journal of the American College of Cardiology. 67 (13). Elsevier BV: 1733. doi:10.1016/s0735-1097(16)31734-x. ISSN 0735-1097.
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