Hemocompatibility and film stability improvement of crosslinkable MPC copolymer coated polypropylene hollow fiber membrane

Journal of Membrane Science

Volumn 452, Issue , 2014, Pages 29-36

  Wang, Yan Bing ^a   Gong, Ming ^a,b   Yang, Shan ^a,c   Nakashima, Kenichi ^d   Gong, Yong Kuan ^a  

^a NORTHWEST UNIVERSITY   (China)

^b XI'AN UNIVERSITY OF SCIENCE AND TECHNOLOGY   (China)

^c WEINAN NORMAL UNIVERSITY   (China)

^d SAGA UNIVERSITY   (Japan)

Author keywords

Artificial lung; Hemocompatibility; Hollow fiber membrane; Phosphorylcholine; Surface modification

Indexed keywords

2-METHACRYLOYLOXYETHYL PHOSPHORYLCHOLINE; ARTIFICIAL LUNG; HEMOCOMPATIBILITY; HOLLOW FIBER MEMBRANES; IMPROVED HEMOCOMPATIBILITY; PHOSPHOLIPID POLYMERS; PHOSPHORYLCHOLINE; POLYPROPYLENE HOLLOW FIBER MEMBRANE;

ARTIFICIAL ORGANS; BIOCOMPATIBILITY; BLOOD; COPOLYMERS; EXPERIMENTS; MEMBRANES; MODEL PREDICTIVE CONTROL; OXYGENATORS; POLYPROPYLENES; SURFACE TREATMENT;

PLASTIC COATINGS;

2 METHACRYLOYLOXYETHYLPHOSPHORYLCHOLINE; COPOLYMER; PHOSPHOLIPID; POLYPROPYLENE;

ADSORPTION; AQUEOUS SOLUTION; ARTICLE; BIOCOMPATIBILITY; BLOOD CLOTTING; BLOOD COMPATIBILITY; BLOOD OXYGENATION; CHEMICAL STRUCTURE; CONTACT ANGLE; DISSOLUTION; GAS EXCHANGE; GAS PERMEABILITY; HOLLOW FIBER MEMBRANE; OXYGEN CONSUMPTION; OXYGENATION; PRIORITY JOURNAL; THROMBOCYTE ADHESION; THROMBOCYTE RICH PLASMA; ULTRASOUND; X RAY PHOTOELECTRON SPECTROSCOPY;

EID: 84887163796     PISSN: 03767388     EISSN: 18733123     Source Type: Journal    
DOI: 10.1016/j.memsci.2013.10.032     Document Type: Article

References (41)

1. Kolobow T., Borelli M., Spatola R. Artificial lung (oxygenators). Artif. Organs 1986, 10:370-377.
2. Van Veen S.Q., Cheung C.W., Meijers J.C.M., Van Gulik T.M., Boermeester M.A. Anticoagulant and anti-inflammatory effects after peritoneal lavage with antithrombin in experimental polymicrobial peritonitis. J. Thromb. Haemostasis 2006, 4:2343-2351.
3. Niimi Y., Ichinose F., Ishiguro Y., Terui K., Uezono S., Morita S., Yamane S. The effects of heparin coating of oxygenator fibers on platelet adhesion and protein adsorption. Anesth. Analg. (Baltimore) 1999, 89:573-579.
4. Oh H., Ye S., Johnson C.A., Woolley J.R., Federspiel W.J., Wagner W.R. Hemocompatibility assessment of carbonic anhydrase modified hollow fiber membranes for artificial lungs. Artif. Organs 2010, 34:439-442.
5. C.Z. Hu, E.K. Dolence, S. Osaki, C.G. Sanders, Hydrocyclosiloxane membrane prepared by plasma polymerization process, USP 5463010, 1995.
6. 2 removal from blood. J. Membr. Sci. 2012, 403-404:25-31.
7. Moro T., Takatori Y., Ishihara K., Konno T., Takigawa Y., Matsushita T., Chung U., Nakamura K., Kawaguchi H. Surface grafting of artificial joints with a biocompatible polymer for preventing periprosthetic osteolysis. Nat. Mater. 2004, 3:829-836.
8. Ishihara K., Shinozuka T., Hanazaki Y., Iwasaki Y., Nakabayashi N. Improvement of blood compatibility on cellulose hemodialysis membrane: IV. Phospholipid polymer bonded to the membrane surface. J. Biomater. Sci., Polym. Ed. 1999, 10:271-282.
9. Iwasaki Y., Uchiyama S., Kurita K., Morimoto N., Nakabayashi N. A nonthrombogenic gas-permeable membrane composed of a phospholipid polymer skin film adhered to a polyethylene porous membrane. Biomaterials 2002, 23:3421-3427.
10. Ye S.H., Watanabe J., Takai M., Iwasaki Y., Ishihara K. Design of functional hollow fiber membranes modified with phospholipid polymers for application in total hemopurification system. Biomaterials 2005, 26:5032-5041.
11. Ye S.H., Watanabe J., Takai M., Iwasaki Y., Ishihara K. High functional hollow fiber membrane modified with phospholipid polymers for a liver assist bioreactor. Biomaterials 2006, 27:1955-1962.
12. Zhang S., Yazid B., Peter R., Tanaka S., Ishihara K. Development of a haemocompatible pO2 sensor with phospholipid-based copolymer membrane. Biosens. Bioelectron. 1996, 11:1019-1029.
13. Gong M., Yang S., Ma J.N., Zhang S.P., Winnik F.M., Gong Y.K. Tunable cell membrane mimetic surfaces prepared with a novel phospholipid polymer. Appl. Surf. Sci. 2008, 255:555-558.
14. Gong M., Dang Y., Wang Y.B., Yang S., Winnik F.M., Gong Y.K. Cell membrane mimetic films immobilized by synergistic grafting and crosslinking. Soft Matter 2013, 9:4501-4508.
15. Rao H.X., Liu F.N., Zhang Z.Y. Preparation and oxygen/nitrogen permeability of PDMS crosslinked membrane and PDMS/tetraethoxysilicone hybrid membrane. J. Membr. Sci. 2007, 303:132-139.
16. Ishihara K., Ueda T., Nakabayashi N. Preparation of phospholipid polymers and their properties as polymer hydrogel membranes. Polym. J. (Tokyo) 1990, 22:355-360.
17. Huangfu P.B., Gong M., Zhang C.F., Yang S., Zhao J., Gong Y.K. Cell outer membrane mimetic modification of a cross-linked chitosan surface to improve its hemocompatibility. Colloids Surf. B: Biointerfaces 2009, 71:268-274.
18. Lewis A.L., Hughes P.D., Kirkwood L.C., Leppard S.W., Redman R.P., Tolhurst L.A., Stratford P.W. Synthesis and characterization of phosphorylcholine-based polymers useful for coating blood filtration devices. Biomaterials 2000, 21:1847-1859.
19. Ye S.H., Watanabe J., Iwasaki Y., Ishihara K. Antifouling blood purification membrane composed of cellulose acetate and phospholipid polymer. Biomaterials 2003, 24:4143-4152.
20. Smith P.K., Krohn R.I., Hermanson G.T., Mallia A.K., Gartner F.H., Provenzano M.D., Fujimoto E.K., Goeke N.M., Olson B.J., Klenk D.C. Measurement of protein using bicinchoninic acid. Anal. Biochem. 1985, 150:76-85.
21. Lewis A.L., Hughes P.D., Kirkwood L.C., Leppard S.W., Redman R.P., Tolhurst L.A., Stratford P.W. Synthesis and characterisation of phosphorylcholine-based polymers useful for coating blood filtration devices. Biomaterials 2000, 21:1847-1859.
22. David Q. Non-sticking drops. Rep. Prog. Phys. 2005, 68:2495-2532.
23. Ma Q., Zhang H., Zhao J., Gong Y.K. Fabrication of cell outer membrane mimetic polymer brush on polysulfone surface via RAFT technique. Appl. Surf. Sci. 2012, 258:9711-9717.
24. Gong M., Wang Y.B., Li M., Hu B., Gong Y.K. Fabrication and hemocompatibility of cell outer membrane mimetic surfaces on chitosan by layer by layer assembly with polyanion bearing phosphorylcholine groups. Colloids Surf. B: Biointerfaces 2011, 85:48-55.
25. Yang S., Zhang S.P., Winnik F.M., Mwale F., Gong Y.K. Group reorientation and migration of amphiphilic polymer bearing phosphorylcholine functionalities on surface of cellular membrane mimicking coating. J. Biomed. Mater. Res. A. 2008, 84A:837-841.
26. Ye S.H., Watanabe J., Iwasaki Y., Ishihara K. In situ modification on cellulose acetate hollow fiber membrane modified with phospholipid polymer for biomedical application. J. Membr. Sci. 2005, 249:133-141.
27. Lewis A.L., Cumming Z.L., Goreish H.H., Kirkwood L.C., Tolhurst L.A., Stratford P.W. Crosslinkable coatings from phosphorylcholine-based polymers. Biomaterials 2001, 40:291-298.
28. Lindon J.N., McManama G., Kushner L., Merrill E.W., Salzman E.W. Does the conformation of adsorbed fibrinogen dictate platelet interactions with artificial surfaces?. Blood 1986, 68:355-362.
29. Li S., Henry J.J.D. Nonthrombogenic approaches to cardiovascular bioengineering. Annu. Rev. Biomed. Eng. 2011, 13:451-475.
30. Chen H., Yuan L., Song W., Wu Z., Li D. Biocompatible polymer materials: role of protein-surface interactions. Prog. Polym. Sci. 2008, 33:1059-1087.
31. Blaszykowski C., Sheikh S., Thompson M. Surface chemistry to minimize fouling from blood-based fluids. Chem. Soc. Rev. 2012, 41:5599-5612.
32. Heijnen H.F.G., Schiel A.E., Fijnheer R., Geuze H.J., Sixma J.J. Activated platelets release two types of membrane vesicles: microvesicles by surface shedding and exosomes derived from exocytosis of multivesicular bodies and α-granules. Blood 1999, 94:3791-3799.
33. Gorbet M.B., Sefton M.V. Biomaterial-associated thrombosis: roles of coagulation factors, complement, platelets and leukocytes. Biomaterials 2004, 25:5681-5703.
34. Motlagh D., Allen J., Hoshi R., Yang J., Lui K., Ameer G. Hemocompatibility evaluation of poly(diol citrate) in vitro for vascular tissue engineering. J. Biomed. Mater. Res., Part A 2007, 82A:907-916.
35. Yuan B., Chen Q., Ding W., Liu P., Wu S., Lin S., Shen J., Gai Y. Copolymer coatings consisting of 2-methacryloyloxyethyl phosphorylcholine and 3-methacryloxypropyl trimethoxysilane via ATRP to improve cellulose biocompatibility. ACS Appl. Mater. Interfaces 2012, 4:4031-4039.
36. Hoven V.P., Chombanpaew K., Iwasaki Y., Tasakorn P. Improving blood compatibility of natural rubber by UV-induced graft polymerization of hydrophilic monomers. J. Appl. Polym. Sci. 2009, 112:208-217.
37. Gong Y.K., Winnik F.M. Strategies in biomimetic surface engineering of nanoparticles for biomedical applications. Nanoscale 2012, 4:360-368.
38. Zong M.M., Gong Y.K. Fabrication and biocompatibility of cell outer membrane mimetic surfaces. Chin. J. Polym. Sci. 2011, 29:53-64.
39. Karlson K.E., Massimino R.J., Singh A.K., Cooper G.N. Laboratory and clinical evaluation of a membrane oxygenator with secondary flows in the blood channels. World J. Surg. 1982, 6:358-361.
40. Zhang Z.Y., Huang J.H., Lin Y., Rao H.X. Oxygen-enriching properties of a new hybrid membrane cross-linked from PDMS and fluorine-containing silicone resin. Polym. Eng. Sci. 2013, 53:2328-2335.
41. Rao H.X., Liu F.N., Zhang Z.Y. Oxygen-enriching properties of silicone rubber crosslinked membrane containing cobalt. J. Membr. Sci. 2007, 296:15-20.