Pub Title



Ultra-hydrophilic stent platforms promote early vascular healing and minimise late tissue response: a potential alternative to second-generation drug-eluting stents.

Kolandaivelu K1, Bailey L, Buzzi S, Zucker A, Milleret V, Ziogas A, Ehrbar M, Khattab AA, Stanley JRL, Wong GK, Zani B, Markham PM, Tzafriri AR, Bhatt DL, Edelman ER.

First-in-man six-month results of a surface-modified coronary stent system in native coronary stenosis.

Suwannasom P1, Sotomi Y, Corti R, Kurz DJ, Roffi M, von Birgelen C, Buzzi S, Zucker A, Dijkstra J, Wykrzykowska JJ, de Winter RJ, Windecker S, Onuma Y, Serruys PW, Daemen J, Räber L.

Effect of oxide layer modification of CoCr stent alloys on blood activation and endothelial behavior

Vincent Milleret1,†, Algirdas Ziogas1,†, Stefano Buzzi2, Roman Heuberger3, Arik Zucker2 and Martin Ehrbar1

Protein adsorption steers blood contact activation on engineered cobalt chromium alloy oxide layers

Vincent Millereta, Stefano Buzzib, Peter Gehrigc, Algirdas Ziogasa, 1, Jonas Grossmannc, Katrin Schilcherd, Annelies S. Zinkernageld, Arik Zuckerb, Martin Ehrbara,

TCT-637 A Novel Bioactive and Coating-Free Stent Surface Exhibits a Reduction in Neointimal Hyperplasia by Decreasing Platelet Aggregation and Promoting Endothelialization

Lynn Bailey1; Adam Groothuis1; Arik Zucker2; Stefano Buzzi2; Armin Mäder2; Algirdas Ziogas3; Vincent Milleret3; Martin Ehrbar3; Elazer Edelman4

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