Ultralow fouling of fibrinogen and human platelets on ulvan multilayer-coated solid surfaces

Arisu Lee; Sung Min Kang

Journal of Industrial and Engineering Chemistry, Vol.82, 228-233, February, 2020

DOI10.1016/j.jiec.2019.10.017 Export Citation

Ultralow fouling of fibrinogen and human platelets on ulvan multilayer-coated solid surfaces

Arisu Lee, and Sung Min Kang^†

Department of Chemistry and BK21 Plus Research Team, Chungbuk National University, Chungbuk 28644, Republic of Korea

E-mail:

Enhancement of blood compatibility with the implant surface is critical for biomedical devices. Coating solid surfaces with an anticoagulant is a potentially promising strategy to improve blood compatibility with the implant surface. This study aimed to develop an approach to enhance blood compatibility with titanium/titanium dioxide (Ti/TiO2) surfaces using a green seaweed-derived polysaccharide ulvan. The approach comprises surface coating with tannic acid (TA) and grafting of ulvan onto the surface. Zirconium(IV)-based coordination linkage between ulvan and TA facilitated robust deposition of ulvan multilayers onto Ti/TiO2 surfaces. Adhesion assays revealed that more than 95% of fibrinogen adsorption and platelet adhesion was suppressed through an ulvan multilayer coating. The present results show that ulvan multilayers are robust against chemical and physical treatments and resistant to the adsorption of adherent proteins and human platelets.

Keywords:Ulvan;Zirconium(IV);Complex;Protein adsorption;Platelet adhesion

[References]

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[1] Cunha L, Grenha A, Mar. Drugs, 14, 42 (2016)

[2] Brading JW, Georg-Plant MM, Hardy DM, J. Chem. Soc., 319 (1954).

[3] Stadnik MJ, Freitas MB, Trop. Plant Pathol., 39, 111 (2014)

[4] Qi H, Huang L, Liu X, Liu D, Zhang Q, Liu S, Carbohydr. Polym., 87, 1637 (2012)

[5] Zhang Z, Wang F, Wang X, Liu X, Hou Y, Zhang Q, Carbohydr. Polym., 82, 118 (2010)

[6] Leiro JM, Castro R, Arranz JA, Lamas J, Int. Immunopharmacol., 7, 879 (2007)

[7] Mao W, Zang X, Li Y, Zhang H, J. Appl. Phycol., 18, 9 (2006)

[8] Pengzhan Y, Ning L, Xiguang L, Gefei Z, Quanbin Z, Pengcheng L, Pharmacol. Res., 48, 543 (2003)

[9] Ivanova V, Rouseva R, Kolarova M, Serkedjieva J, Rachev R, Manolova N, Prep. Biochem., 24, 83 (1994)

[10] Cassolato JE, Noseda MD, Pujol CA, Pellizzari FM, Damonte EB, Duarte ME, Carbohydr. Res., 343, 3085 (2008)

[11] Gadenne V, Lebrun L, Jouenne T, Thebault P, Colloids Surf. B: Biointerfaces, 112, 229 (2013)

[12] Gadenne V, Lebrun L, Jouenne T, Thebault P, J. Biomed. Mater. Res. A, 103, 1021 (2015)

[13] Jeong Y, Kang SM, Macromol. Biosci., 1900154 (2019).

[14] Mondloch JE, Katz MJ, Planas N, Semrouni D, Gagliardi L, Hupp JT, Farha OK, Chem. Commun., 50, 8944 (2014)

[15] Jaffer IH, Fredenburgh JC, Hirsh J, Weitz JI, J. Thromb. Haemostasis, 13, S72 (2015)

[16] Sefton MV, Gemmell CH, Gorbet MB, Sci. Polym. Ed., 11, 1165 (2000)

[17] Ishihara K, Langmuir, 35(5), 1778 (2019)

[18] Guo J, Ping Y, Ejima H, Alt K, Meissner M, Richardson JJ, Yan Y, Peter K, Von Elverfeldt D, Hagemeyer CE, Angew. Chem.-Int. Edit., 53, 5546 (2014)

[19] Slack SM, Bohnert JL, Horbett TA, Ann. N. Y. Acad. Sci., 516, 223 (1987)

[20] Cho WK, Kong BY, Choi IS, Langmuir, 23(10), 5678 (2007)

[21] Kang H, Jeong W, Hong D, Langmuir, 35(24), 7744 (2019)

[22] Jackson CM, Nemerson Y, Annu. Rev. Biochem., 49, 765 (1980)

[23] Ejima H, Richardson JJ, Liang K, Best JP, van Koeverden MP, Such GK, Cui JW, Caruso F, Science, 341(6142), 154 (2013)

[24] Park JH, Kim K, Lee J, Choi JY, Hong D, Yang SH, Caruso F, Lee Y, Choi IS, Angew. Chem.-Int. Edit., 53, 12420 (2014)

[25] Cho WK, Kang SM, Lee JK, J. Nanosci. Nanotechnol., 14, 1231 (2014)

[26] Junter GA, Thebault P, Lebrun L, Acta Biomater., 30, 13 (2016)

[27] Chen JL, Li QL, Chen JY, Chen C, Huang N, Appl. Surf. Sci., 255(15), 6894 (2009)