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Języki publikacji
Abstrakty
Microscopic methods usable for sample surface imaging and subsequent qualitative and quantitative evaluation of platelet adhesion to the surface of the biomaterial studied were compared. It was shown, making use of the samples of medical steel (AISI 316L), that such tools as surface imaging with scanning electron microscopy (SEM), glutaraldehyde induced fluorescence technique (GIFT) and metallurgical microscopy (MM) are equivalent in evaluating surface platelet adhesion. The importance of biological variability of blood samples for a proper result assessment and the necessity of using internal standards were also considered.
Czasopismo
Rocznik
Tom
Strony
45--49
Opis fizyczny
Bibliogr. 12 poz., rys.
Twórcy
autor
autor
autor
autor
autor
- Institute of Materials Science and the Centre of Excellence NANODIAM, Technical University of Łódź, and the Centre of Advanced Technology BioTechMed, Łódź
Bibliografia
- [1] JONES M.J., MCCOLL J.R., GRANT D.M., PARKER K.G., PARKER T.L., Protein adsorption and platelet attachment and activation on TiN, TiC, and DLC coatings on titanium for cardiovascular applications, Journal of Biomedical Material Research, 2000, 52, 413–421.
- [2] KAMATH S., BLANN A.D., LIP G.Y.H., Platelet activation: assessment and quantification, European Heart Journal, 2001, 22, 1561–1571.
- [3] EN ISO 10993 Biological evaluation of medical devices. Part 4: Selection of tests for interaction with blood.
- [4] RESMI K.R., VARGHESE N., KRISHNAN L.K., Procedure for quantification of platelet adhesion to biomaterials by radioscintigraphy, Thrombosis Research, 2004, 114, 121–128.
- [5] KRISHNAN L.K., VARGHESE N., MURALEEDHARAN C.V., BHUVANESHWAR G.S., DERANGERE F., SAMPEUR Y., SURYANARAYANAN R., Quantitation of platelet adhesion to Ti and DLC-coated Ti in vitro using 125I-labeled platelets, Biomolecular Engineering, 2002, 19, 251–253.
- [6] NYGREN H., Initial reactions of whole blood with hydrophilic and hydrophopic titanium surfaces, Colloids and Surfaces B: Biointerfaces, 1996, 6, 329–333.
- [7] KANAGARAJA S., LUNDSTROM I., NYGREN H., TENGVALL P., Platelet binding and protein adsorption to titanium and gold after short time exposure to heparinized plasma and whole blood, Biomaterials, 1996, 17, 2225–2232.
- [8] YANG P., HUANG N., LENG Y.X., CHEN J.Y., FU R.K.Y., KWOK S.C.H., LENG Y., CHU P.K., Activation of platelets adhered on amorphous hydrogenated carbon (a-C:H) films synthesized by plasma immersion ion implantation–deposition (PIII-D), Biomaterials, 2003, 24, 2821–2829.
- [9] GOODMAN S.L., Sheep, pig, and human platelet–material interactions with model cardiovascular biomaterials, Journal of Biomedical Material Research, 1999, 45 (3), 240–250.
- [10] FRANK R.D., DRESBACH H., THELEN H., SIEBERTH H.G., Glutardialdehyde induced fluorescence technique (GIFT): A new method for imaging of platelet adhesion on biomaterials, Journal of Biomedical Material Research, 2000, 52 (2), 374–381.
- [11] HASEBE T., ISHIMARU T., KAMIJO A., YOSHIMOTO Y., YOSHIMURA T., YOHENA S., KODAMA H., HOTTA A., TAKAHASHI K., SUZUKI T., Effects of surface roughness on anti-thrombogenicity of diamond-like carbon films, Diamond & Related Materials, 2007, 16, 1343–1348.
- [12] YI LIU, ZHEYI LI, ZHENHUI HE, DIHU CHEN, SCHIRONG PAN, Structure and blood compatibility of tetrahedral amorphous hydrogenated carbon formed by a magnetic-field-filter plasma stream, Surface and Coatings Technology, 2007, 201, 6851–6856.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPBB-0001-0022