The Value of Brachial-Ankle Pulse Wave Velocity as a Predictor of Coronary Artery Disease in High-Risk Patients

Seo, Won Woo; Chang, Hyuk Jae; Cho, IkSung; Yoon, Yeon Yee; Suh, Jung Won; Kim, Kwang Il; Cho, Yong Seok; Youn, Tae Jin; Chae, In Ho; Choi, Dong Ju; Kim, Cheol Ho; Chun, Eun Ju; Choi, Sang Il

Korean Circ J. 2010 May;40(5):224-229. 10.4070/kcj.2010.40.5.224.

The Value of Brachial-Ankle Pulse Wave Velocity as a Predictor of Coronary Artery Disease in High-Risk Patients

Affiliations

¹Department of Internal Medicine, Seoul National University College of Medicine, Seoul, Korea. ross1042@gmail.com
²Division of Cardiology, The Cardiovascular Center, Seoul National University Bundang Hospital, Seongnam, Korea.
³Division of Radiology, The Cardiovascular Center, Seoul National University Bundang Hospital, Seongnam, Korea.

KMID: 1456366
DOI: http://doi.org/10.4070/kcj.2010.40.5.224

Abstract

BACKGROUND AND OBJECTIVES
Arterial stiffness has been known as an independent contributory factor for coronary artery disease (CAD). Brachial-ankle pulse wave velocity (baPWV) is widely used as a simple noninvasive measure of arterial stiffness. The aim of our study was to test whether baPWV had predictive value for CAD in the subset of patients with high pretest probability.
SUBJECTS AND METHODS
We enrolled 174 consecutive patients who were referred for evaluation of suspected CAD, and who underwent both baPWV measurement and computed tomography (CT) for coronary artery calcium scoring (CACS) as part of a diagnostic work-up. Subsequently, 160 of those patients underwent invasive coronary angiography. The CAD indices consisted of 1) CACS, 2) modified Gensini scoring system, and 3) presence of obstructive CAD and 4) multi-vessel obstructive CAD.
RESULTS
baPWV correlated with CACS (r=0.25, p=0.001), but not with modified Gensini scoring (r=0.10, p=0.19). However, after adjustment for factors influencing PWV, baPWV no longer correlated with CACS (r=0.14, p=0.14). By receiver operating characteristic (ROC) curve analysis, baPWV was neither a sensitive nor specific index for predicting the presence of obstructive CAD or multi-vessel obstructive CAD (sensitivity: 53% and 59%; specificity: 50% and 55%, respectively).
CONCLUSION
Our findings demonstrated that baPWV is associated with CACS, however, this may be primarily attributed to common risk factors, such as age. Furthermore, baPWV may be of limited value in identifying patients at risk for CAD.

Keyword

Coronary artery disease; Compliance

MeSH Terms

Calcium
Compliance
Coronary Angiography
Coronary Artery Disease
Coronary Vessels
Humans
Pulse Wave Analysis
Risk Factors
ROC Curve
Vascular Stiffness
Calcium

Figure

Fig. 1 ROC curve analysis of baPWV for obstructive CAD. A: for prediction of presence of obstructive coronary artery disease, baPWV cut-off value at 1,550 cm/s showed sensitivity 53%, specificity 50%, AUC 0.557. B: for prediction of multi-vessel obstructive CAD, 1,593 cm/s showed sensitivity 59%, specificity 55%, AUC 0.590. ROC: receiver operating characteristic, baPWV: brachial-ankle pulse wave velocity, CAD: coronary artery disease, AUC: area under curve.

Cited by 1 articles

High Brachial Ankle Pulse Wave Velocity as a Marker for Predicting Coronary Artery Stenosis in Patients with Type 2 Diabetes
Bo Hyun Kim, Jae Sik Jang, Yong Seop Kwon, June Hyung Kim, In Joo Kim, Chang Won Lee
Endocrinol Metab. 2018;33(1):88-96. doi: 10.3803/EnM.2018.33.1.88.

Reference

1. Mattace-Raso FU, van der Cammen TJ, Hofman A, et al. Arterial stiffness and risk of coronary heart disease and stroke: the Rotterdam study. Circulation. 2006. 113:657–663.

2. Kim SH, Choi SI, Shin JH, et al. Arterial stiffness and abdominal obesity are associated with the relaxation abnormality of left ventricle in human hypertension. Korean Circ J. 2006. 36:221–228.

3. Rhee MY, Lee HY, Park JB. Measurements of arterial stiffness: methodological aspects. Korean Circ J. 2008. 38:343–350.

4. Oliver JJ, Webb DJ. Noninvasive assessment of arterial stiffness and risk of atherosclerotic events. Arterioscler Thromb Vasc Biol. 2003. 23:554–566.

5. Boutouyrie P, Tropeano AI, Asmar R, et al. Aortic stiffness is an independent predictor of primary coronary events in hypertensive patients: a longitudinal study. Hypertension. 2002. 39:10–15.

6. Gensini GG. A more meaningful scoring system for determining the severity of coronary heart disease. Am J Cardiol. 1983. 51:606.

7. O'Rourke RA, Brundage BH, Froelicher VF, et al. American College of Cardiology/American Heart Association Expert Consensus Document on electron-beam computed tomography for the diagnosis and prognosis of coronary artery disease. J Am Coll Cardiol. 2000. 36:326–340.

8. Budoff MJ, Gul KM. Expert review on coronary calcium. Vasc Health Risk Manag. 2008. 4:315–324.

9. Agatston AS, Janowitz WR, Hildner FJ, Zusmer NR, Viamonte M Jr, Detrano R. Quantification of coronary artery calcium using ultrafast computed tomography. J Am Coll Cardiol. 1990. 15:827–832.

10. Kim HJ, Nam JS, Park JS, et al. Usefulness of brachial-ankle pulse wave velocity as a predictive marker of multiple coronary artery occlusive disease in Korean type 2 diabetes patients. Diabetes Res Clin Pract. 2009. 85:30–34.

11. Tomiyama H, Yamashina A, Arai T, et al. Influences of age and gender on results of noninvasive brachial-ankle pulse wave velocity measurement: a survey of 12517 subjects. Atherosclerosis. 2003. 166:303–309.

12. Hopkins KD, Lehmann ED, Jones RL, Turay RC, Gosling RG. A family history of NIDDM is associated with decreased aortic distensibility in normal healthy young adult subjects. Diabetes Care. 1996. 19:501–503.

13. Benetos A, Waeber B, Izzo J, et al. Influence of age, risk factors, and cardiovascular and renal disease on arterial stiffness: clinical applications. Am J Hypertens. 2002. 15:1101–1108.

14. Kullo IJ, Bielak LF, Turner ST, Sheedy PF 2nd, Peyser PA. Aortic pulse wave velocity is associated with the presence and quantity of coronary artery calcium: a community-based study. Hypertension. 2006. 47:174–179.

15. Laurent S, Katsahian S, Fassot C, et al. Aortic stiffness is an independent predictor of fatal stroke in essential hypertension. Stroke. 2003. 34:1203–1206.

16. Laurent S, Boutouyrie P, Asmar R, et al. Aortic stiffness is an independent predictor of all-cause and cardiovascular mortality in hypertensive patients. Hypertension. 2001. 37:1236–1241.

17. Demer LL. Effect of calcification on in vivo mechanical response of rabbit arteries to balloon dilation. Circulation. 1991. 83:2083–2093.

18. Greenland PG, Bonow RO, Brundage BH, et al. ACCF/AHA 2007 clinical expert consensus document on coronary artery calcium scoring by computed tomography in global cardiovascular risk assessment and in evaluation of patients with chest pain. J Am Coll Cardiol. 2007. 49:378–402.

19. Megnien JL, Simon A, Denarie N, et al. Aortic stiffening does not predict coronary and extracoronary atherosclerosis in asymptomatic men at risk for cardiovascular disease. Am J Hypertens. 1998. 11:293–301.

20. Haydar AA, Covic A, Colhoun H, Rubens M, Goldsmith DJ. Coronary artery calcification and aortic pulse wave velocity in chronic kidney disease patients. Kidney Int. 2004. 65:1790–1794.

21. Tsuchiya M, Suzuki E, Egawa K, et al. Stiffness and impaired blood flow in lower leg arteries are associated with severity of coronary artery calcification among asymptomatic type 2 diabetic patients. Diabetes Care. 2004. 27:2409–2415.

22. Xu Y, Wu Y, Li J, et al. The predictive value of brachial-ankle pulse wave velocity in coronary atherosclerosis and peripheral artery diseases in urban Chinese patients. Hypertens Res. 2008. 31:1079–1085.

23. Avolio AP, Chen SG, Wang RP, Zhang CL, Li MF, O'Rourke MF. Effects of aging on changing arterial compliance and left ventricular load in a northern Chinese urban community. Circulation. 1983. 68:50–58.

24. Zieman SJ, Melenovsky V, Kass DA. Mechanisms, pathophysiology, and therapy of arterial stiffness. Arterioscler Thromb Vasc Biol. 2005. 25:932–943.

25. Blankenhorn DH, Kramsch DM. Reversal of atherosis and sclerosis: the two components of atherosclerosis. Circulation. 1989. 79:1–7.

26. Benetos A, Laurent S, Hoeks AP, Boutouyrie PH, Safar ME. Arterial alterations with aging and high blood pressure: a noninvasive study of carotid and femoral arteries. Arterioscler Thromb. 1993. 13:90–97.

27. Sugawara J, Hayashi K, Yokoi T, et al. Brachial ankle pulse wave velocity: an index of central arterial stiffness? J Hum Hypertens. 2005. 19:401–406.

28. Laurent S, Cockcroft J, van Bortel L, et al. Expert consensus document on arterial stiffness: methodological issues and clinical applications. Eur Heart J. 2006. 27:2588–2605.

The Value of Brachial-Ankle Pulse Wave Velocity as a Predictor of Coronary Artery Disease in High-Risk Patients

Abstract

Keyword

MeSH Terms

Figure

Cited by 1 articles

Reference

Cited

Save citations to file

Email citations