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The International Journal of Cardiovascular Imaging

Published in:

01-03-2014 | Original paper

Fusion of optical coherence tomographic and angiographic data for more accurate evaluation of the endothelial shear stress patterns and neointimal distribution after bioresorbable scaffold implantation: comparison with intravascular ultrasound-derived reconstructions

Authors: Christos V. Bourantas, Michail I. Papafaklis, Lampros Lakkas, Antonis Sakellarios, Yoshinobu Onuma, Yao-Jun Zhang, Takashi Muramatsu, Roberto Diletti, Paschalis Bizopoulos, Fanis Kalatzis, Katerina K. Naka, Dimitrios I. Fotiadis, Jin Wang, Hector M. Garcia Garcia, Takeshi Kimura, Lampros K. Michalis, Patrick W. Serruys

Published in: The International Journal of Cardiovascular Imaging | Issue 3/2014

Abstract

Intravascular ultrasound (IVUS)-based reconstructions have been traditionally used to examine the effect of endothelial shear stress (ESS) on neointimal formation. The aim of this analysis is to compare the association between ESS and neointimal thickness (NT) in models obtained by the fusion of optical coherence tomography (OCT) and coronary angiography and in the reconstructions derived by the integration of IVUS and coronary angiography. We analyzed data from six patients implanted with an Absorb bioresorbable vascular scaffold that had biplane angiography, IVUS and OCT investigation at baseline and 6 or 12 months follow-up. The IVUS and OCT follow-up data were fused separately with the angiographic data to reconstruct the luminal morphology at baseline and follow-up. Blood flow simulation was performed on the baseline reconstructions and the ESS was related to NT. In the OCT-based reconstructions the ESS were lower compared to the IVUS-based models (1.29 ± 0.66 vs. 1.87 ± 0.66 Pa, P = 0.030). An inverse correlation was noted between the logarithmic transformed ESS and the measured NT in all the OCT-based models which was higher than the correlation reported in five of the six IVUS-derived models (−0.52 ± 0.19 Pa vs. −0.10 ± 0.04, P = 0.028). Fusion of OCT and coronary angiography appears superior to IVUS-based reconstructions; therefore it should be the method of choice for the study of the effect of the ESS on neointimal proliferation.

Gijsen FJ, Oortman RM, Wentzel JJ, Schuurbiers JC, Tanabe K, Degertekin M, Ligthart JM, Thury A, de Feyter PJ, Serruys PW, Slager CJ (2003) Usefulness of shear stress pattern in predicting neointima distribution in sirolimus-eluting stents in coronary arteries. Am J Cardiol 92(11):1325–1328PubMedCrossRef

Papafaklis MI, Bourantas CV, Theodorakis PE, Katsouras CS, Naka KK, Fotiadis DI, Michalis LK (2010) The effect of shear stress on neointimal response following sirolimus- and paclitaxel-eluting stent implantation compared with bare-metal stents in humans. JACC Cardiovasc Interv 3(11):1181–1189. doi:10.1016/j.jcin.2010.08.018 PubMedCrossRef

Suzuki N, Nanda H, Angiolillo DJ, Bezerra H, Sabate M, Jimenez-Quevedo P, Alfonso F, Macaya C, Bass TA, Ilegbusi OJ, Costa MA (2008) Assessment of potential relationship between wall shear stress and arterial wall response after bare metal stent and sirolimus-eluting stent implantation in patients with diabetes mellitus. Int J Cardiovasc Imaging 24(4):357–364. doi:10.1007/s10554-007-9274-0 PubMedCrossRef

Wentzel JJ, Krams R, Schuurbiers JC, Oomen JA, Kloet J, van Der Giessen WJ, Serruys PW, Slager CJ (2001) Relationship between neointimal thickness and shear stress after Wallstent implantation in human coronary arteries. Circulation 103(13):1740–1745PubMedCrossRef

Guagliumi G, Sirbu V (2008) Optical coherence tomography: high resolution intravascular imaging to evaluate vascular healing after coronary stenting. Catheter Cardiovasc Interv 72(2):237–247. doi:10.1002/ccd.21606 PubMedCrossRef

Athanasiou LS, Bourantas CV, Siogkas PK, Sakellarios AI, Exarchos TP, Naka KK, Papafaklis MI, Michalis LK, Prati F, Fotiadis DI (2012) 3D reconstruction of coronary arteries using frequency domain optical coherence tomography images and biplane angiography. Conf Proc IEEE Eng Med Biol Soc 2012:2647–2650. doi:10.1109/EMBC.2012.6346508 PubMed

Papafaklis MI, Bourantas CV, Yonetsu T, Kato K, Kotsia A, Coskun AU, Jia H, Antoniadis AP, Vergallo R, Tsuda M, Fotiadis DI, Feldman CL, Stone PH, Jang IK, Michalis LK (2012) Geometrically accurate three-dimensional coronary artery reconstruction using frequency-domain optical coherence tomography and angiographic data: new opportunities for in vivo endothelial shear stress assessment. JACC Cardiovasc Interv 6:S36

Serruys PW, Onuma Y, Ormiston JA, de Bruyne B, Regar E, Dudek D, Thuesen L, Smits PC, Chevalier B, McClean D, Koolen J, Windecker S, Whitbourn R, Meredith I, Dorange C, Veldhof S, Miquel-Hebert K, Rapoza R, Garcia-Garcia HM (2010) Evaluation of the second generation of a bioresorbable everolimus drug-eluting vascular scaffold for treatment of de novo coronary artery stenosis: six-month clinical and imaging outcomes. Circulation 122(22):2301–2312. doi:10.1161/CIRCULATIONAHA.110.970772 PubMedCrossRef

Gomez-Lara J, Radu M, Brugaletta S, Farooq V, Diletti R, Onuma Y, Windecker S, Thuesen L, McClean D, Koolen J, Whitbourn R, Dudek D, Smits PC, Regar E, Veldhof S, Rapoza R, Ormiston JA, Garcia-Garcia HM, Serruys PW (2011) Serial analysis of the malapposed and uncovered struts of the new generation of everolimus-eluting bioresorbable scaffold with optical coherence tomography. JACC Cardiovasc Interv 4(9):992–1001. doi:10.1016/j.jcin.2011.03.020 PubMedCrossRef

10.

Bourantas CV, Papafaklis MI, Athanasiou L, Kalatzis FG, Naka KK, Siogkas PK, Takahashi S, Saito S, Fotiadis DI, Feldman CL, Stone PH, Michalis LK (2013) A new methodology for accurate 3-dimensional coronary artery reconstruction using routine intravascular ultrasound and angiographic data: implications for widespread assessment of endothelial shear stress in humans. EuroIntervention 9(5):582–93. doi:10.4244/EIJV9I5A94

11.

Papafaklis MI, Bourantas CV, Theodorakis PE, Katsouras CS, Fotiadis DI, Michalis LK (2009) Relationship of shear stress with in-stent restenosis: bare metal stenting and the effect of brachytherapy. Int J Cardiol 134(1):25–32. doi:10.1016/j.ijcard.2008.02.006 PubMedCrossRef

12.

Sakamoto S, Takahashi S, Coskun AU, Papafaklis MI, Takahashi A, Saito S, Stone PH, Feldman CL (2013) Relation of distribution of coronary blood flow volume to coronary artery dominance. Am J Cardiol. doi:10.1016/j.amjcard.2013.01.290 PubMed

13.

Stone PH, Saito S, Takahashi S, Makita Y, Nakamura S, Kawasaki T, Takahashi A, Katsuki T, Namiki A, Hirohata A, Matsumura T, Yamazaki S, Yokoi H, Tanaka S, Otsuji S, Yoshimachi F, Honye J, Harwood D, Reitman M, Coskun AU, Papafaklis MI, Feldman CL (2012) Prediction of progression of coronary artery disease and clinical outcomes using vascular profiling of endothelial shear stress and arterial plaque characteristics: the PREDICTION Study. Circulation 126(2):172–181. doi:10.1161/CIRCULATIONAHA.112.096438 PubMedCrossRef

14.

He Y, Duraiswamy N, Frank AO, Moore JE Jr (2005) Blood flow in stented arteries: a parametric comparison of strut design patterns in three dimensions. J Biomech Eng 127(4):637–647PubMedCrossRef

15.

Balossino R, Gervaso F, Migliavacca F, Dubini G (2008) Effects of different stent designs on local hemodynamics in stented arteries. J Biomech 41(5):1053–1061. doi:10.1016/j.jbiomech.2007.12.005 PubMedCrossRef

16.

Duraiswamy N, Schoephoerster RT, Moore JE Jr (2009) Comparison of near-wall hemodynamic parameters in stented artery models. J Biomech Eng 131(6):061006. doi:10.1115/1.3118764 PubMedCentralPubMedCrossRef

17.

Jimenez JM, Davies PF (2009) Hemodynamically driven stent strut design. Ann Biomed Eng 37(8):1483–1494. doi:10.1007/s10439-009-9719-9 PubMedCentralPubMedCrossRef

18.

Mejia J, Ruzzeh B, Mongrain R, Leask R, Bertrand OF (2009) Evaluation of the effect of stent strut profile on shear stress distribution using statistical moments. Biomed Eng Online 8:8. doi:10.1186/1475-925X-8-8 PubMedCentralPubMedCrossRef

19.

LaDisa JF Jr, Olson LE, Guler I, Hettrick DA, Kersten JR, Warltier DC, Pagel PS (2005) Circumferential vascular deformation after stent implantation alters wall shear stress evaluated with time-dependent 3D computational fluid dynamics models. J Appl Physiol 98(3):947–957. doi:10.1152/japplphysiol.0 0872.2004PubMedCrossRef

20.

Pant S, Bressloff NW, Forrester AI, Curzen N (2010) The influence of strut-connectors in stented vessels: a comparison of pulsatile flow through five coronary stents. Ann Biomed Eng 38(5):1893–1907. doi:10.1007/s10439-010-9962-0 PubMedCrossRef

21.

Serruys PW, Onuma Y, Dudek D, Smits PC, Koolen J, Chevalier B, de Bruyne B, Thuesen L, McClean D, van Geuns RJ, Windecker S, Whitbourn R, Meredith I, Dorange C, Veldhof S, Hebert KM, Sudhir K, Garcia-Garcia HM, Ormiston JA (2011) Evaluation of the second generation of a bioresorbable everolimus-eluting vascular scaffold for the treatment of de novo coronary artery stenosis: 12-month clinical and imaging outcomes. J Am Coll Cardiol 58(15):1578–1588. doi:10.1016/j.jacc.2011.05.050 PubMedCrossRef

22.

Ormiston JA, Serruys PW, Onuma Y, van Geuns RJ, de Bruyne B, Dudek D, Thuesen L, Smits PC, Chevalier B, McClean D, Koolen J, Windecker S, Whitbourn R, Meredith I, Dorange C, Veldhof S, Hebert KM, Rapoza R, Garcia-Garcia HM (2012) First serial assessment at 6 months and 2 years of the second generation of absorb everolimus-eluting bioresorbable vascular scaffold: a multi-imaging modality study. Circ Cardiovasc Interv 5(5):620–632. doi:10.1161/CIRCINTERVENTIONS.112.971549 PubMedCrossRef

Title: Fusion of optical coherence tomographic and angiographic data for more accurate evaluation of the endothelial shear stress patterns and neointimal distribution after bioresorbable scaffold implantation: comparison with intravascular ultrasound-derived reconstructions
Authors: Christos V. Bourantas
Michail I. Papafaklis
Lampros Lakkas
Antonis Sakellarios
Yoshinobu Onuma
Yao-Jun Zhang
Takashi Muramatsu
Roberto Diletti
Paschalis Bizopoulos
Fanis Kalatzis
Katerina K. Naka
Dimitrios I. Fotiadis
Jin Wang
Hector M. Garcia Garcia
Takeshi Kimura
Lampros K. Michalis
Patrick W. Serruys
Publication date: 01-03-2014
Publisher: Springer Netherlands
Published in: The International Journal of Cardiovascular Imaging / Issue 3/2014
Print ISSN: 1569-5794
Electronic ISSN: 1875-8312
DOI: https://doi.org/10.1007/s10554-014-0374-3

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Fusion of optical coherence tomographic and angiographic data for more accurate evaluation of the endothelial shear stress patterns and neointimal distribution after bioresorbable scaffold implantation: comparison with intravascular ultrasound-derived reconstructions

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