Abstract
For every people who try to prepare biocompatible materials and more particularly hemocompatible materials, the availability of experimental methods for the evaluation of their hemocompatibility is still of concern. This may appear as a paradox if one considers the great number of papers dealing with this subject but very few among them, maybe none of them, do answer to the question of the evaluation of the functional hemocompatibility of a material. In other words, it is very difficult to find one experimental method beside chronic in vivo experiments, so far as models used are valid, which may give results allowing any prediction about the behaviour of a material for a given clinical application.
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References
‘The preparation of 131I labelled human growth hormone of high specific radioactivity’, Greenwood F.C., Hunter W.M. & Glover J.S. (1963), Biochem. J. 89, 114–23.
‘An enzyme method for the trace iodination of immunoglobulins and other proteins’, Marchalonis J.J. (1969), Biochem. J. 113, 299.
‘Lactoperoxidase coupled to polyacrylamide for radioiodination of proteins to high specific activity’, Thorell J.I. & Johannson B.G. (1974), Immunochemistry 11, 203–6.
‘Protein and cell membrane iodinations with a sparingly soluble chloroamide, 1,3,4,6-tetrachloro-3a, 6a-diphenylglycoluril’, Fracker P.J. & Speck J.C. (1978), Biochem. Biophys. Res. Commun. 20, 849–857.
‘Iodination of proteins, glycoproteins and peptides using a solid-phase oxidizing agent, 1,3,4,6-tetrachloro-3a, 6a-diphenylglycoluril’, Salacinski P.R.P., McLean C., Sykes J.E.C., Clement-Jones V.V. & Lowry P.J. (1981), Anal. Biochem. 117, 136.
‘Factors influencing fibrin gel structure studied by flow measurement’, Okada M. & Blomback B. (1983), Molecular Biology of fibrinogen and fibrin, Ed. M.W. Mosesson and R.F. Doodlittle, published by the New York Academy of Sciences, Vol. 408, 233.
‘Conditions for radioiodination of antithrombin III rataining its biological properties’, Caix J., Perrot Minnot A., Beziade A., Vuillemin L., Belloc F., Baquey Ch. & Ducassou D. (1987), Int. Applied Rad. Isot. Vol. 38, No 12, 1003–1006.
‘Direct in vivo study of flowing blood artificial surface interactions. An original application of dynamic isotopic techniques!’, Basse-Cathalinat B., Baquey Ch., Llabador y., Fleury A. (1980), Int. J. of Applied Rad. and Isot. 31, 747–751.
‘Scintillation camera with multichannel collimators’, Anger H.O. (1964), J. Nucl. Med. 5, 515.
‘Techniques experimentales: les examens scintigraphiques’, Ducassou D., & Isabelle D. (1975), in: Traite de Medecine Nucleaire-Bases Theoriques, edited under leadership of G. Meyniel, Flammarion-Medecine-Sciences-Paris, 3–4, pp. 65–78.
‘High spatial resolution imaging of labelled blood cells or proteins on artificial materials’, Baquey Ch., More N., Basse-Cathalinat B., Beziade A. & Ducassou D. (1986), ‘Biological and Biomechanical Performance of Biomaterials’, Advances in Biomaterials, Ed. P. Christel, A. Meunier and A.J.C. Lee, 6, 293–298.
‘Quantitative and qualitative radioisotopic studies of the affinity of biomaterial surfaces for blood components under dynamic circumstances’, Baquey Ch., Bordenave L., Caix J., More N., Basse-Cathalinat B., Ducassou D. (1989), to be published in Tests procedures for blood compatibility of biomaterials. Edite dans le cadre du projet ‘Biomateriaux EUROXY’ de la CEE (à paraître).
‘Control and isotopic quantification of affinity of Antithrombin III for heparin like surfaces’, Caix J., Migonney V., Baquey A., Fougnot C., Perrot Minnot A., Beziade A., Vuillemin L., Baquey Ch. & Ducassou D. (1988), Biomaterials, Vol. 9, January, 62–65.
‘Fonctionnalisation de la surface interne de materiaux tubulaires. Etude de l’inhibition de la thrombine par l’Antithrombine III à la surface de ces materiaux’, Migonney V. (1986), Doctorat Thesis, Paris.
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© 1991 Springer Science+Business Media Dordrecht
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Baquey, C., Lespinasse, F., Caix, J., Baquey, A., Basse-Chathalinat, B. (1991). Can protein adsorption studies using radioisotopic techniques be useful for the development of hemocompatible materials?. In: Missirlis, Y.F., Lemm, W. (eds) Modern Aspects of Protein Adsorption on Biomaterials. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-3752-2_1
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DOI: https://doi.org/10.1007/978-94-011-3752-2_1
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