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Journal of Biomaterials Science, Polymer Edition Volume 7, 1996 - Issue 5
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Articles

Protein adsorption on low temperature isotropic carbon: V. How is it related to its blood compatibility?

L. Feng Department of Bioengineering and Department of Materials Science and Engineering, 2480 MEB, University of Utah, Salt Lake City, UT 84112, USA
&
J.D. Andrade Department of Bioengineering and Department of Materials Science and Engineering, 2480 MEB, University of Utah, Salt Lake City, UT 84112, USA
Pages 439-452 | Published online: 02 Apr 2012

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A. Zhao, Z. Wang, S. Zhou, G. Xue, Y. Wang, C. Ye & N. Huang. (2015) Titanium oxide films with vacuum thermal treatment for enhanced hemocompatibility. Surface Engineering 31:12, pages 898-903.
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Elisabetta Cenni, Alessandra Corradini, Alessandro Di Leo & Lucio Montanaro. (1999) Production of growth factors by in vitro cultured human endothelial cells after contact with carbon coated polyethylene terephthalate. Journal of Biomaterials Science, Polymer Edition 10:9, pages 989-997.
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Pauline Mathon, Matthieu Chivot, Alexandre Galland, Stéphane Airaudi & Renaud Gravier. (2023) Pyrolytic carbon head shoulder arthroplasty: CT scan glenoid bone modeling assessment and clinical results at 3-year follow-up. JSES International 7:6, pages 2476-2485.
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Jie Meng, Bo Xiao, Fengxin Wu, Lihong Sun, Bo Li, Wen Guo, Xuechun Hu, Xuegai Xu, Tao Wen, Jian Liu & Haiyan Xu. (2022) Co-axial fibrous scaffolds integrating with carbon fiber promote cardiac tissue regeneration post myocardial infarction. Materials Today Bio 16, pages 100415.
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Xiao Chen, Jiang Chen & Nan Huang. (2021) The structure, formation, and effect of plasma protein layer on the blood contact materials: A review. Biosurface and Biotribology 8:1, pages 1-14.
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Jerome J Klawitter, Jason Patton, Robert More, Noel Peter, Evgeny Podnos & Mark Ross. (2018) In vitro comparison of wear characteristics of PyroCarbon and metal on bone: Shoulder hemiarthroplasty. Shoulder & Elbow 12:1_suppl, pages 11-22.
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Radoslava Sivkova, Johanka Táborská, Alain Reparaz, Andres de los Santos Pereira, Ilya Kotelnikov, Vladimir Proks, Jan Kučka, Jan Svoboda, Tomáš Riedel & Ognen Pop-Georgievski. (2020) Surface Design of Antifouling Vascular Constructs Bearing Biofunctional Peptides for Tissue Regeneration Applications. International Journal of Molecular Sciences 21:18, pages 6800.
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Yuebiao Sheng, Wei Wang & P. Chen. (2010) Interaction of an ionic complementary peptide with a hydrophobic graphite surface. Protein Science 19:9, pages 1639-1648.
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Mariangela FedelAntonella Motta, Devid Maniglio & Claudio Migliaresi. (2009) Carbon Coatings for Cardiovascular Applications: Physico-Chemical Properties and Blood Compatibility. Journal of Biomaterials Applications 25:1, pages 57-74.
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Hongfang Zhou, Ping Yang, Ansha Zhao, Yongxiang Leng & Nan Huang. (2007) Improving thromboresistance of Ti–O films by phosphorus-doping: Fabricating conditions, characteristics and antithrombotic behavior. Surface and Coatings Technology 201:19-20, pages 8066-8069.
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G. Marletta & C. Satriano. 2005. Frontiers of Multifunctional Integrated Nanosystems. Frontiers of Multifunctional Integrated Nanosystems 71 94 .
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Sara Mantero, Daniela Piuri, Franco M. Montevecchi, Simone Vesentini, Fabio Ganazzoli & Giuseppina Raffaini. (2001) Albumin adsorption onto pyrolytic carbon: A molecular mechanics approach. Journal of Biomedical Materials Research 59:2, pages 329-339.
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Séverine Hourdin, Sylvie Longchamp, Olivier Gallet & Jean-Maxime Nigretto. (2001) Thermally Induced Transient Activity Changes of Plasmin Adsorbed onto Bare and Fibrinogen-Modified Graphite and Glassy Carbon Surfaces. Journal of Colloid and Interface Science 236:1, pages 132-140.
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P Heszler, K Révész, C T Reimann, Á Mechler & Z Bor. (2000) Enhanced frictive, adhesive and attractive forces imaged at etch-pit edges on highly-oriented pyrolytic graphite by scanning force microscopy. Nanotechnology 11:1, pages 37-43.
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J.I Paredes, A Martı́nez-Alonso & J.M.D Tascón. (2000) Comparative study of the air and oxygen plasma oxidation of highly oriented pyrolytic graphite: a scanning tunneling and atomic force microscopy investigation. Carbon 38:8, pages 1183-1197.
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Steven L. Goodman. (1999) Sheep, pig, and human platelet-material interactions with model cardiovascular biomaterials. Journal of Biomedical Materials Research 45:3, pages 240-250.
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S.L. Goodman, H. Harasaki, K.E. Wika & A.M. Brendzel. (2020) Imaging of Explanted Mechanical Heart Valves. Microscopy and Microanalysis 4:S2, pages 934-935.
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Á Mechler, P Heszler, CT Reimann, K Révész & Z Bor. (1998) Cantilever flexure, adhesive\attractive and lateral force measurements on highly-oriented pyrolytic graphite by scanning force microscopy. Vacuum 50:3-4, pages 281-287.
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C.T. Reimann, S. Andersson, P. Brühwiler, N. Mårtensson, L. Olsson, R. Erlandsson, M. Henkel & H.M. Urbassek. (1998) Graphite surface topography induced by Ta cluster impact and oxidative etching. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 140:1-2, pages 159-170.
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C.T. Reimann, S. Andersson, P.A. Brühwiler, N. Mårtensson & B.U.R. Sundqvist. (1997) Oxidative etching of Ta-cluster-ion-bombarded highly-oriented pyrolytic graphite. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 122:3, pages 343-346.
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