FEASIBILITY OF BOVINE SUBMAXILLARY MUCIN (BSM) FILMS AS BIOMIMETIC COATING FOR POLYMERIC BIOMATERIALS

Seunghwan Lee, Jan Busk Madsen, Kirsi I. Pakkanen

References

1. [1] T. Sandberg, J. Carlsson, & M. K. Ott, Mucin coatingssuppress neutrophil adhesion to a polymeric modelbiomaterial, Microscopy Research and Technique 70,2007, 864 – 868.
2. [2] T. Sandberg, H. Blom, & K.D. Caldwell, Potential useof mucins as biomaterial coatings. I. Fractionation,characterization, and model adsorption of bovine, porcine,and human mucins, Journal of Biomedical MaterialsResearch, 91A, 2009, 762 – 772.
3. [3] T. Sandberg, M.K. Ott, J. Carlsson, A. Feiler, & K.D.Caldwell, Potential use of mucins as biomaterial coatings.II. Mucin coatings affect the conformation and neutrophil-activating properties of adsorbed host proteins-Toward amucosal mimic, Journal of Biomedical MaterialsResearch 91A, 2009, 773 – 785.
4. [4] T. Sandberg, J. Carlsson, & M.K. Ott, Journal ofMaterials Science: Materials in Medicine 20, 2009, 621 –631.
5. [5] I.A. Bushnak, F.H. Labeed, R.P. Sear, & J.L. Keddie,Biofouling 26, 2010, 387 – 397.
6. [6] L. Shi & K.D. Caldwell, Mucin adsorption tohydrophobic surfaces, Journal of Colloid and InterfaceScience 224, 2000, 372 – 381.
7. [7] L. Shi, R. Ardehali, K.D. Caldwell, & P. Valint,Mucin coating on polymeric material surfaces to suppressbacterial adhesion, Colloids and Surfaces B: Biointerfaces17, 2000, 229 – 239.
8. [8] L. Shi, R. Ardehali, P. Valint, & K.D. Caldwell,Biotechnology Letters 23, 2001, 437 – 441.
9. [9] D.R. Schmidt, H. Waldeck & W.J. Kao, Ch.1 ProteinAdsorption to Biomaterials, In: ed. D.A. Puleo & R.Bizios, Biological interaction on Materials Surfaces(Springer, 2009).
10. [10] W.M. Slatzman, Biomedical Engineering: BridgingMedicine and Technology (Cambridge University Press,2009)
11. [11] E. Ostuni, R.G. Chapman, R.E. Holmlin, S.Takayama, & G.M. Whitesides, A survery of structure-property relationship of surfaces that resist the adsorptionof protein, Langmuir 17, 2001, 5605 – 5620.
12. [12] J.L. Dalsin, P.B. Messersmith, Bioinspiredantifouling polymers, Materials Today 8, 2005, 38 – 46.
13. [13] J. Zhu, & R.E. Marchant, Dendritic saccharidesurfactant polymers as antifouling interface materials toreduce platelet adhesion, Biomacromolecules 7, 2006,1036-1041.
14. [14] C. Perrino, S. Lee, S.W. Choi, A. Maruyama, &N.D. Spencer, A biomimetic alternative to poly(ethyleneglycol) as an antifouling coating: resistance to nonspecificprotein adsorption of poly(L-lysine)-graft-dextran,Langmuir 24, 2008, 8850-8856.
15. [15] M. Tanaka, A. Mochizuki, N. Ishii, T. Motomura, &T. Hatakeyama, Study of blood compatibility with poly(2-methoxyethyl acrylate). Relationship between waterstructure and platelet compatibility in poly(2-methoxyethylacrylate-co-2-hydroxyethylmethacrylate),Biomacromolecules 3, 2002, 36-41.
16. [16] M. Malmsten, K. Emoto, J. van Alstine, & M.James, Effect of chain density on inhibition of proteinadsorption by poly(ethylene glycol) based coatings,Journal of Colloids and Interface Science 202, 1998, 507-517.
17. [17] K.L. Prime, & G.M. Whitesides, Self-assembledorganic monolayers: model systems for studyingadsorption of proteins at surfaces, Science 252, 1991,1164 - 1167.
18. [18] S. Lee, & J. Vörös, An aqueous-based surfacemodification of poly(dimethylsiloxane) withpoly(ethylene glycol) to prevent biofouling, Langmuir 21,2005, 11957 - 11962.
19. [19] I.C.H. Berg, L. Lindh, & T. Arnebrant, Intraorallubrication of PRP-1, statherin and mucin as studied byAFM, Biofouling 20, 2004, 65 - 70.
20. [20] S. Lee, M. Müller, K. Rezwan, & N.D. Spencer,Porcine Gastric Mucin (PGM) at the Water/Poly(dimethylsiloxane) (PDMS) Interface: Influence ofpH and ionic strength on its conformation, adsorption, andaqueous lubrication properties, Langmuir 21, 2005, 8344 -8353.
21. [21] G.E. Yakubov, J. McColl, J.H.H. Bongerts, & J. J.Ramsden, Viscous boundary lubrication of hydrophobicsurfaces by mucin, Langmuir 25, 2009, 2313 - 2321.
22. [22] N.M. Harvey, G.E. Yakubov, J.R. Stokes, & J. Klein,Normal and shear forces between surfaces bearing porcinegastric mucin, a high-molecular-weight glycoprotein,Biomacromolecules 12, 2011, 1041 - 1050.
23. [23] J.A. de Feijter, J. Benjamins, & F.A. Veer,Ellipsometry as a tool to study the adsorption of syntheticand biopolymers at the air-water interface, Biopolymers17, 1978, 1759-1773.
24. [24] W.S. Rasband, ImageJ, U. S. National Institutes ofHealth, Bethesda, Maryland, USA,http://imagej.nih.gov/ij/, 1997-2012.
25. [25]G.J. Strous & J. Dekker, Mucin-type glycoproteins,Critical reviews in biochemistry and molecular biology27, 1992, 57 – 92.
26. [26] R. Bansil, E. Stanely, & J.T. LaMont, Mucinbiophysics, Annual Review of Physiology 57, 1995, 635-657.
27. [27] E. Perez, & J.E. Proust, Forces between mica sheetscovered with adsorbed mucin across aqueous solution.Journal of Colloid and Interface Science 118, 1987,182 –191.

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• Abstract
• DOI: 10.2316/J.2013.216.791-0166
• From Journal (216) Biomedical Engineering - 2013

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