Corrigendum to “Assessment of the hemodynamic characteristics of Absorb BVS in a porcine coronary artery model” [Int. J. Cardiol. 227 (2017) 467–473]
2017; Elsevier BV; Volume: 235; Linguagem: Inglês
10.1016/j.ijcard.2017.03.001
ISSN1874-1754
AutoresErhan Tenekecioğlu, Ryo Torii, Christos V. Bourantas, Mohammad Abdelghani, Rafael Cavalcante, Yohei Sotomi, Tom Crake, Solomon Su, Teguh Santoso, Yoshinobu Onuma, Patrick W. Serruys,
Tópico(s)Cardiac Arrhythmias and Treatments
ResumoWe realized that during the proof of our published article entitled "Assessment of the hemodynamic characteristics of Absorb BVS in a porcine coronary artery model" we made a mistake probably because of copy-paste process of the table sketch for Table 5b and Table 5c. We sincerely apologize for that mistake and kindly request from the journal to amend it. We incorporated the update for Table 5b and Table 5c as follows:Table 5bHistologic analysis results from all sections (mean ± SD) at light microscopy.Strut malapposition (%)Struts with fibrin (%)Struts with granuloma (%)Struts with giant cells (%)Struts with RBCs (%)Endothelialization (%)0.0 ± 0.094.02 ± 7.410.032.46 ± 18.7551.51 ± 15.6456.5 ± 38.07 Open table in a new tab Table 5cHistologic analysis of non-parametric scores from all sections (mean ± SD) at light microscopy.Mean injury scoreMean fibrin scoreNeointimal inflammation scoreAdventitial inflammation score0.42 ± 0.342.5 ± 0.550.17 ± 0.410.0 ± 0.0 Open table in a new tab The authors would like to apologize for any inconvenience caused. Assessment of the hemodynamic characteristics of Absorb BVS in a porcine coronary artery modelInternational Journal of CardiologyVol. 227PreviewLocal hemodynamic changes are one of the main factors that determine the vessel wall biological response after stent/scaffold implantation. Computational fluid dynamic studies provide an opportunity to investigate the rheological effects of implanted stent/scaffold. The aim of this study was to assess the local hemodynamic microenvironment in scaffolded segments in porcine coronary models. Full-Text PDF
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