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The International Journal of Cardiovascular Imaging

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23.06.2018 | Original Paper

The clinical evaluation of the CADence device in the acoustic detection of coronary artery disease

verfasst von: Joseph L. Thomas, Michael Ridner, Jason H. Cole, Jeffrey W. Chambers, Sabahat Bokhari, Demetris Yannopoulos, Morton Kern, Robert F. Wilson, Matthew J. Budoff

Erschienen in: The International Journal of Cardiovascular Imaging | Ausgabe 12/2018

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Abstract

The noninvasive detection of turbulent coronary flow may enable diagnosis of significant coronary artery disease (CAD) using novel sensor and analytic technology. Eligible patients (n = 1013) with chest pain and CAD risk factors undergoing nuclear stress testing were studied using the CADence (AUM Cardiovascular Inc., Northfield MN) acoustic detection (AD) system. The trial was designed to demonstrate non-inferiority of AD for diagnostic accuracy in detecting significant CAD as compared to an objective performance criteria (sensitivity 83% and specificity 80%, with 15% non-inferiority margins) for nuclear stress testing. AD analysis was blinded to clinical, core lab-adjudicated angiographic, and nuclear data. The presence of significant CAD was determined by computed tomographic (CCTA) or invasive angiography. A total of 1013 subjects without prior coronary revascularization or Q-wave myocardial infarction were enrolled. Primary analysis was performed on subjects with complete angiographic and AD data (n = 763) including 111 subjects (15%) with severe CAD based on CCTA (n = 34) and invasive angiography (n = 77). The sensitivity and specificity of AD were 78% (p = 0.012 for non-inferiority) and 35% (p < 0.001 for failure to demonstrate non-inferiority), respectively. AD results had a high 91% negative predictive value for the presence of significant CAD. AD testing failed to demonstrate non-inferior diagnostic accuracy as compared to the historical performance of a nuclear stress OPC due to low specificity. AD sensitivity was non-inferior in detecting significant CAD with a high negative predictive value supporting a potential value in excluding CAD.

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Roger VL, Go AS, Lloyd-Jones DM, Benjamin EJ, Berry JD, Borden WB et al (2012) Heart disease and stroke statistics—2012 Update. A report from the American Heart Association. Circ 125:e2–e220CrossRef

Semmlow J, Rahalkar K (2007) Acoustic detection of coronary artery disease. Ann Rev Biomed Eng 9:449–469CrossRef

Dock W, Zoneraich S (1967) A diastolic murmur arising in a stenosed coronary artery. Am J Med 42:617–619CrossRef

Akay M (1992) Noninvasive diagnosis of coronary artery disease using a neural network alogrithm. Biol Cybern 67:361–367CrossRef

Akay M, Akay YM, Welkowitz W, Semmlow JL, Kostis JB (1992) Noninvasive Characterization of the sound pattern caused by coronary artery stenosis using FFT/FAST zero tracking filters: normal/abnormal study. Ann Biomed Eng 21:175–182CrossRef

Cooper DB. (2010) Feasibility of Passive Acoustic detection of coronary artery disease using source separation. Thesis, Virginia Polytechnic Institute and Statue University

Semmlow J, Rahalkar K (2007) Acoustic detection of coronary artery disease. Annu Rev Biomed 9:449–469CrossRef

Akay M, Welkowitz W, Semmlow JL, Kostis JB (1991) Application of the ARMA method to acoustic detection of coronary artery disease. Med Biol Eng Comput 29:365–372CrossRef

Akay M, Akay YM, Welkowitz W, Semmlow JL, Kostis JB (1992) Application of adaptive filters to noninvasive acoustical detection of coronary occlusions before and after angioplasty. IEEE Trans Biomed Eng 39:176–184CrossRef

10.

Akay M, Akay YM, Gauthier D, Paden RG, Pavlicek W, Fortuin FD, Sweeney LP, Lee RW (2009) Dynamics of diastolic sounds caused by partially occluded coronary arteries. IEEE Trans Biomed Eng 56:513–517CrossRef

11.

Akay YM, Akay M, Welkowitz W, Semmlow JL, Kostis JB (1993) Noninvasive acoustical detection of coronary artery disease: a comparative study of signal processing methods. IEEE Trans Biomed Eng 40:571–578CrossRef

12.

Akay M, Welkowitz W, Semmlow JL, Akay YM, Kostis J (1992) Noninvasive acoustic detection of coronary artery disease using the adaptive line enhancer method. Med Biol Eng Comput 30:147–154CrossRef

13.

Borisyuk AO (2002) Experimental study of noise produced by steady flow through a simulated vascular stenosis. J Sound Vib 256:475–498CrossRef

14.

Schmidt SE, Hansen J, Zimmermann Hammershøi D, Toft E, Struijk JJ (2011) Coronary artery disease and low frequency heart sound signatures. Comput Cardiol 38:481–484

15.

Makaryus AM, Makaryus JN, Figgatt A, Mulholland D, Kushner H, Semmlow JL, Meieres J, Taylor AJ (2013) Utility of an advanced digital electronic stethoscope in the diagnosis of coronary artery disease compared with coronary computed tomographic angiography. Am J Cardiol 111:786–792CrossRef

16.

Azimpour F, Caldwell E, Tawfik P, Duval S, Wilson RF (2016) Audible coronary artery stenosis. Am J Med 129:515–521CrossRef

17.

Winther S, Schmidt SE, Holm NR, Toft E, Struijk JJ, Bøtker HE, Bøttcher M (2016) Diagnosing coronary artery disease by sound analysis from coronary stenosis induced turbulent blood flow: diagnostic performance in patients with stable angina pectoris. Int J Cardiovasc Imaging 32:235–245CrossRef

18.

Budoff MJ, Dowe D, Jollis JG, Gitter M, Sutherland J, Halamert E, Scherer M, Bellinger R, Martin A, Benton R, Delago A, Min JK (2008) Diagnostic performance of 64-multidetector row coronary computed tomographic angiography for evaluation of coronary artery stenosis in individuals without known coronary artery disease: Results from the prospective multicenter ACCURACY (assessment by coronary computed tomographic angiography of individuals undergoing invasive coronary angiography) trial. J Am Coll Cardiol 52:1724–1732CrossRef

19.

Leschka S, Alkadhi H, Plass A, Desbiolles L, Grunenfelder J, Marincek B, Wildermuth S (2005) Accuracy of MSCT coronary angiography with 64-slice technology: first experience. Eur Heart J 26:1482–1487CrossRef

20.

Raff GL, Gallagher MJ, O’Neill WW, Goldstein JA (2005) Diagnostic accuracy of noninvasive coronary angiography using 64-slice spiral computed tomography. J Am Coll Cardiol 46:552–557CrossRef

21.

Leber AW, Knez A, von Ziegler F, Becker A, Nikolaou K, Paul S, Wintersperger B, Reiser M, Becker CR, Steinbeck G, Boekstegers P (2005) Quantification of obstructive and nonobstructive coronary lesions by 64-slice computed tomography: a comparative study with quantitative coronary angiography and intravascular ultrasound. J am Coll Cardiol 46:147–154CrossRef

22.

Mollet NR, Cademartiri F, Nieman K, Saia F, Lemos PA, McFadden EP, Pattynama PM, Serruys PW, Krestin GP, de Feyter PJ (2004) Multislice spiral computed tomography coronary angiography in patients with stable angina pectoris. J Am Coll Cardiol 43:2265–2270CrossRef

23.

Patel MR, Dai D, Hernandez AF, Douglas PS, Messenger J, Garratt KN, Maddox TM, Peterson ED, Roe MT (2014) Prevalence and predictors of nonobstructive coronary artery disease identified with coronary angiography in contemporary clinical practice. Am Heart J 167:846–852CrossRef

24.

Stone JM, Robinson JG, Lichtenstein AH, Bairez Merz N, Blum CB, Eckel RH et al (2014) 2013 ACC/AHA guideline on the treatment of blood cholesterol to reduce atherosclerotic cardiovascular risk in adults. Circ 129:S1–S45CrossRef

25.

Douglas PS, Hoffmann U, Patel MR, Mark DB, Al-Khalidi HR, Cavanaugh B, Cole J et al (2015) Outcomes of anatomical versus functional testing for coronary artery disease. N Engl J Med 372:1291–1300CrossRef

26.

Neglia D, Rovai D, Caselli C, Pietila M, Teresinska A, Aguade-Bruix S et al (2015) Detection of significant coronary artery disease by noninvasive anatomical and functional imaging. Circ Cardiovasc Imaging 8:e002179CrossRef

27.

Fredburg JJ (1974) Pseudo-sound generation in atherosclerotic constrictions in arteries. Bull Math Biol 36:143–155CrossRef

28.

Rozanski A, Gransar H, Hayes SW, Min J, Friedman JD, Thomson LEJ et al (2013) Temporal trends in the frequency of inducible myocardial ischemia during cardiac stress testing. J Am Coll Cardiol 61:1054–1065CrossRef

29.

De Bruyne B, Pijls NHJ, Kalesan B, Barbato E, Tonino PAL et al. Fractional flow reserve-guided pci versus medical therapy in stable coronary artery disease. N Engl J Med 20112; 367: 991–1001

30.

Fihn SD, Blankenship JC, Alexander KP, Bittle JA, Byrne JG, Fletcher BJ, Fonarow GC et al ACC/AHA/AATS/PCNA (2014) /SCAI/STS Focused update of the guidelines for the diagnosis and management of patients with stable ischemic heart disease. Circ 2014 130:1749–1767CrossRef

31.

Greenwood JP, Maredia N, Younger JF, Brown JM, Nixon J, Everett CC et al (2012) Cardiovascular magnetic resonance and single-photon emission computed tomography for diagnosis of coronary heart disease (CE-MARC): a prospective trial. Lancet 379:453–460CrossRef

Titel: The clinical evaluation of the CADence device in the acoustic detection of coronary artery disease
verfasst von: Joseph L. Thomas
Michael Ridner
Jason H. Cole
Jeffrey W. Chambers
Sabahat Bokhari
Demetris Yannopoulos
Morton Kern
Robert F. Wilson
Matthew J. Budoff
Publikationsdatum: 23.06.2018
Verlag: Springer Netherlands
Erschienen in: The International Journal of Cardiovascular Imaging / Ausgabe 12/2018
Print ISSN: 1569-5794
Elektronische ISSN: 1875-8312
DOI: https://doi.org/10.1007/s10554-018-1403-4

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