Abstract | BACKGROUND: METHODS AND RESULTS: Twelve pigs were instrumented with a stainless steel and 2 titanium-nitride-oxide-coated stents ( TiNOX 1, ceramic; TiNOX 2, metallic). Animals were restudied after 6 weeks. Histological specimens of stented segments were analyzed by digital morphometry. Platelet adhesion and fibrinogen binding studies were performed in the perfusion chamber. Under in vitro conditions, TiNOX 1 showed reduced platelet adhesion (65+/-3%) compared with TiNOX 2 (72+/-5%; P<0.05) and stainless steel (71+/-4%; P<0.05). Platelet adhesion 48 hours after incubation with human plasma, however, was not different between TiNOX 1 (17+/-3%) and 2 (15+/-3%) but was significantly higher with stainless steel (23+/-2%; P<0.05). Fibrinogen binding was significantly reduced with TiNOX 2 (54+/-3%) compared with TiNOX 1 (82+/-4%, P<0.05) or stainless steel (100%, P<0.05). Histomorphometry revealed a significantly larger neointimal area in stainless steel (2.61+/-1.12 mm(2)) than in TiNOX 1-coated (1.47+/-0.84 mm(2), P<0.02) or TiNOX 2-coated (1.39+/-0.93 mm(2), P<0.02) stents. The reductions were 44% and 47%, respectively. CONCLUSIONS:
TiNOX coating significantly reduces neointimal hyperplasia in stainless steel stents. The antiproliferative effect was similar for both TiNOX coatings, suggesting that the electrochemical properties are more important for attenuation of neointimal proliferation than the observed differences in platelet adhesion and fibrinogen binding.
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Authors | S Windecker, I Mayer, G De Pasquale, W Maier, O Dirsch, P De Groot, Y P Wu, G Noll, B Leskosek, B Meier, O M Hess, Working Group on Novel Surface Coating of Biomedical Devices (SCOL) |
Journal | Circulation
(Circulation)
Vol. 104
Issue 8
Pg. 928-33
(Aug 21 2001)
ISSN: 1524-4539 [Electronic] United States |
PMID | 11514381
(Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
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Chemical References |
- Alloys
- Coated Materials, Biocompatible
- titanium-nitride-oxide
- Fibrinogen
- Titanium
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Topics |
- Alloys
(chemistry, metabolism, pharmacology)
- Animals
- Blood Vessel Prosthesis Implantation
- Cell Division
(drug effects)
- Coated Materials, Biocompatible
(chemistry, metabolism, pharmacology)
- Coronary Vessels
(pathology, surgery)
- Female
- Fibrinogen
(metabolism)
- Graft Occlusion, Vascular
(etiology, pathology, prevention & control)
- Hyperplasia
(etiology, pathology, prevention & control)
- In Vitro Techniques
- Male
- Platelet Adhesiveness
(drug effects)
- Protein Binding
(drug effects)
- Stents
(adverse effects, standards)
- Surface Properties
(drug effects)
- Swine
- Titanium
(chemistry, metabolism, pharmacology)
- Tunica Intima
(drug effects, pathology)
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