Analysis of pulsatile coronary pressure and flow velocity : looking beyond means - List of publications

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Analysis of pulsatile coronary pressure and flow velocity : looking beyond means

Kolyva, C.

Publication date

2008

Link to publication

Citation for published version (APA):

Kolyva, C. (2008). Analysis of pulsatile coronary pressure and flow velocity : looking beyond

means.

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List of publications

149

List of publications

Articles

1. Tsangaris S, Matioulakis D, Marinakis G, Kolyva C. Viscous flow in oscillating angulated tubes.

Acta Mechanica160:61-70, 2003

2. Spaan JAE, ter Wee R, van Teeffelen JWG, Streekstra G, Siebes M, Kolyva C, Vink H, Fokkema DS, VanBavel E. Visualisation of intramural coronary vasculature by an imaging cryomicrotome suggests compartmentalisation of myocardial perfusion areas. Med Biol Eng

Comp43:431-435, 2005

3. van den Wijngaard JPHM, Kolyva C, Siebes M, Dankelman J, van Gemert MJC, Piek JJ, Spaan JAE. Model prediction of subendocardial perfusion of the coronary circulation in the presence of an epicardial coronary artery stenosis. Med Biol Eng Comp (Accepted for

publication)

4. Kolyva C, Verhoeff BJ, Piek JJ, Spaan JAE, Siebes M. Increased diastolic time fraction as

beneficial adjunct of alpha-adrenergic receptor blockade after percutaneous coronary intervention. Am J Physiol Heart Circ Physiol (In Revision)

5. Kolyva C, Siebes M, Piek JJ, Spaan JAE. Hyperemic stenosis resistance and intramyocardial pump function assessed from phasic energy of coronary flow velocity and pressure signals.

(Submitted)

6. Kolyva C, Spaan JAE, Piek JJ, Siebes M. Applicability of local arterial wave speed assessed by single-point method in healthy and diseased human coronary vessels. (Submitted)

7. Kolyva C, Spaan JAE, Verhoeff B, Piek JJ, Siebes M. Effect of microvascular alterations

induced by revascularization on coronary wave intensity in humans. (Submitted)

8. Spaan JAE, van den Wijngaard JPHM, ter Wee R, Kolyva C, Piek JJ, Siebes M. Coronary structure and perfusion in health and disease. Phil Trans R Soc B, Invited paper for Special Issue (Submitted)

Other Publications

1. Kolyva C, Verhoeff B, Piek JJ, Spaan JAE, Siebes M. Separating diastolic duration as confounding variable in the hemodynamic effect of coronary vasodilation. IFMBE News

68:27-30, 2004 (www.ifmbe.org)

First Place, Ph.D. Student Award, European Society of Engineering in Medicine (ESEM)

Conference Proceedings

1. Kolyva C, Mathioulakis DS. PIV measurements downstream of an artificial bileaflet heart valve. 4th International Symposium on Particle Image Velocimetry, Göttingen, Germany, 2001 (poster)

2. Kolyva C, Verhoeff B, Piek JJ, Spaan JAE, Siebes M. Separating diastolic duration as confounding variable in the hemodynamic effect of coronary vasodilation. Xth Mediterranean Conference on Medical and Biological Engineering (MEDICON), Ischia, Italy,

2004 (on CD-ROM)

3. Kolyva C, Verhoeff BJ, Dijksman LM, Tijssen JGP, Piek JJ, Spaan JAE, Siebes M. Increased diastolic time fraction as beneficial adjunct of alpha-adrenergic receptor blockade after percutaneous coronary intervention. Scientific Sessions of the American Heart Association

2005, Dallas, TX. Circulation 112:II-739, 2005 (abstr# 3451)

4. Kolyva C, Verhoeff BJ, Piek JJ, Spaan JAE, Siebes M. Coronary wave intensity analysis provides independent evidence for pressure-dependence of minimal coronary

150

microvascular resistance in humans. Scientific Sessions of the American Heart Association

2005, Dallas, TX. Circulation 112:II-767, 2005 (abstr# 3571)

5. Kolyva C, Verhoeff B, Piek JJ, Spaan JAE, Siebes M. Coronary wave intensity in humans: effect of changes in microvascular resistance by vasodilation and stent placement, and changes in heart rate. Experimental Biology 2006: Advancing the Biomedical Frontier, San

Francisco, CA. FASEB J20(5) Suppl S Part 2:A1396, 2006 (abstr# 906.4)

6. Kolyva C, Verhoeff B, Piek JJ, Spaan JAE, Siebes M. Coronary wave intensity in humans: Effect of changes in microvascular resistance and hemodynamic conditions. 5th World

Conference of Biomechanics, Munich, Germany. J Biomechanics 39 (Suppl 1):S300, 2006

(abstr# 6953)

7. Kolyva C, Verhoeff B, Piek JJ, Spaan JAE, Siebes M. Local coronary wave speed index is linked to changes in microvascular resistance. World Conf. on Medical Physics & Biomedical

Engineering, Seoul, South Korea. IOMP Proc. Vol. 2, 2006 (abstr# 4943) on CD-ROM

8. Kolyva C, Verhoeff B, Piek JJ, Spaan JAE, Siebes M. Estimation of local coronary wave speed is influenced by the presence of a stenosis. 24th European Conference on Microcirculation,

Amsterdam, The Netherlands. J Vasc Res43 (Suppl 1):48, 2006 (abstr# PSF.6)

9. Kolyva C, Spaan JAE, Verhoeff B, Piek JJ, Siebes M. Dynamic signal energy quantified from simultaneous recordings of pressure and Doppler velocity in diseased human coronary arteries. Experimental Biology 2007: Today’s Research, Tomorrow’s Health, Washington, DC.

FASEB J21 Suppl S Part 2:900.11, 2007 (abstr# 900.11)

10. Siebes M, Kolyva C , Verhoeff B, van den Wijngaard JPHM, Piek JJ, Spaan JAE. Wave

intensity analysis of coronary pressure and velocity for studying coronary-ventricular interaction. Experimental Biology 2008, San Diego, CA.

11. van den Wijngaard JPHM, Kolyva C, Siebes M, Dankelman J, van Gemert MJC, Piek JJ,

Spaan JAE. Model prediction of subendocardial perfusion in the presence of an epicardial coronary artery stenosis. Experimental Biology 2008, San Diego, CA.

Invited presentations

Kolyva C. “Coronary Wave Intensity Analysis in humans: effects of treating a lesion and changes

in hemodynamic conditions.” International Centre for Circulatory Health, Imperial College at St.