[1] 魏利娜,甄珍,奚廷斐.生物医用材料及其产业现状[J].生物医学工程研究, 2018,37(1):1-5.
[2] 奚廷斐.我国生物医用材料现状和发展趋势[J].中国医疗器械信息, 2013, 19(8):1-5.
[3] KUNAL K, PALUCH M, ROLAND CM, et al.Polyisobutylene: a most unusual polymer. J Polym Sci B Polym Phys.2008;46:1390-1399.
[4] 韩秀山.我国聚异丁烯的生产及应用概况[J].橡胶科技市场, 2009,7(8): 4-8.
[5] WU YX, ZHOU Q, DU J, et al.Controlled/Living Cationic Polymerization of Olefins: System, Process and Application.Acta Polym Sin. 2017;(7):1047-1057.
[6] 刘杰.低分子量聚异丁烯环氧化研究[D].广州:华南理工大学,2013.
[7] PINCHUK L, RISS I, BATLLE JF, et al.The use of poly (styrene-block-isobutylene-block-styrene) as a microshunt to treat glaucoma.Regen Biomate.2016;3(2):1-6.
[8] “第三代橡胶”热塑性弹性体特性及应用分析[J].橡塑技术与装备(橡胶),2018,44(5):57-58.
[9] 马育红,程斌,杨万泰,等.异丁烯正离子聚合的进展及应用[J].合成橡胶工业,2003,26(1):53-58.
[10] COZZENS D, OJHA U, KULKARNI P, et al. Long term in vitro biostability of segmented polyisobutylene-based thermoplastic polyurethanes.J Biomed Mater Res A.2010;95A(3):774-782.
[11] PUSKAS JE, CHEN Y, DAHMAN Y, et al. Polyisobutylene-based biomaterials.J Polym Sci A Pol Chem.2004;42:3091-3109.
[12] TUROWEC BA, GILLIES ER. Sythesis, properties and degradation of polyisobutylene-polyester graft copolymers.Polym Int.2017;66(1):42-51.
[13] TOTH K, NUGAY N, KENNEDY JP. Polyisobutylene-based polyurethanes:VII.structure/property investigations for medical applications.J Polym Sci A Pol Chem.2016;54(4):532-543.
[14] LAWRENCE SS, SHINOZAKI DM, PUSKAS JE, et al. Micro-mechanical testing of polyisobutylene-polystyrene block-type thermoplastic elastomers.Rubber Chem Technol.2001;74:601-613.
[15] CADIEUX P, WATTERSON JD, HARBOTTLE R, et al. A new biomaterial for application to the urinary tract, and potential for lactobacillus proteins to reduce the risk of device-associated infections.Colloids Surf B Biointerfaces.2002;28(2-3):95-105.
[16] PUSKAS JE, CHEN Y, ANTONY P, et al. Atomic force microscopic and encrustation studies of novel prospective polyisobutylene-based thermoplastic elastomeric biomaterials.Polym Adv Technol. 2003; 14(11-12):763-770.
[17] ANTONY P, KWON Y, PUSKAS JE, et al.Atomic force microscopic studies of polystyrenepolyisobutylene block copolymers.Eur Polym J. 2003;40:149-157.
[18] PUSKAS JE, ANTONY P, FRAY ME, et al.Effect of hard and soft segment composition on the mechanical properties of polyisobutylene- polystyrene thermoplastic elastomeric block copolymers.Eur Polym J. 2003;39:2041-2049.
[19] PUSKAS JE, KWON Y, PRINCE A, et al.Synthesis and characterization of novel dendritic(arborescent, hyperbranched) polyisobutylene-polystyrene block copolymers.J Polym Sci Pol Chem. 2005;43:1811-1826.
[20] PUSKAS JE, DOS SANTOS L, KASZAS G. Innovation in material science: the chameleon block copolymer.J Polym Sci Pol Chem. 2006;44:6494-6497.
[21] PUSKAS JE, KWON Y. Biomacromolecular engineering: desing, synthesis and characterization one-post synthesis of block copolymers of arborescent polyisobutylene and polystyrene.Polym Adv Technol. 2006;17:615-620.
[22] FOREMAN EA, PUSKAS JE, KASZAS G. Synthesis and characterization of arborescent (hyperbranched) polyisobutylenes from the 4-(1,2-oxirane-isopropyl) styrene inimer.J Polym Sci Pol Chem.2007;45:5847-5856.
[23] 滕雅娣,黄鑫龙.Akron大学橡胶合成研究进展[J].合成橡胶工业, 2015, 38(4):258-262.
[24] GÖTZ C, LIM GT, PUSKAS JE, et al.Investigation of structure-property relationships of polyisobutylene based biomaterials: Morphology, thermal, quasi-static tensile and long-term dynamic fatigue behavior.J Mech Behav Biomed Meter.2012;10(6):206-215.
[25] PUSKAS JE, SANTOS LMD, ORLOWSKI E. Polyisobutylene-based thermoplastic biorubbers.Rubber Chem Technol.2009;(83):235-246.
[26] PUSKAS JE, CHEN Y. Biomedical application of commercial polymers and novel polyisobutylene based thermoplastic elastomers for soft tissue replacement.Biomacromolecules.2004;5(4):1141-1154.
[27] PUSKAS JE, FOREMAN-ORLOWSKI EA, LIM GT, et al.A nanostructured carbon-reinforced polyisobutylene-based thermoplastic elastomer.Biomaterials.2010;31(9):2477-2488.
[28] FITTIPALDI M, GRACE LR. Lipid-induced degradation in biocompatible poly(Styrene-IsobutyleneStyrene) (SIBS) thermoplastic elastomer.J Mech Behav Biomed Mater.2017;68:80-87.
[29] FRAY ME, PROWANS P, PUSKAS JE, et al. Biocompatibility and Fatigue Properties of Polystyrene-Polyisobutylene-Polystyrene, an Emerging Thermoplastic Elastomeric Biomaterial. Biomacromolecules. 2006;7:844-850.
[30] VENKATRAMAN S, GALE R. Skin adhesives and skin adhesion. Biomaterials.1998;19:1119-1136.
[31] KEKEC NC, AKOLPOGLU MB, BOZUYUK U, et al.Calcification resistance of polyisobutylene and polyisobutylene-based materials.Polym Advan Technol.2019:1-11.
[32] 杨舒逸,金怀洋,高山俊,等.热塑性聚氨酯弹性体改性研究进展[J].工程塑料应用,2018,46(6):138-142.
[33] Y•周, L•平楚克.用于生物医学用途的交联聚烯烃及其制造方法: CN 101918461 B[P]. 2015-09-16.
[34] PINCHUK L, BATLLE JF, RISS I, et al.The use of polyisobutylene polymers for glaucoma drainage tubes and intraocular lenses.4th International Conference on Clinical & Experimental Ophthalmology,2014.
[35] 杨愔,谢继红.有晶状体眼后房人工晶体:CN 205831963 U[P].2016-12-28.
[36] PINCHUK L, WILSON GJ, BARRY JJ, et al. Medical applications of poly(styrene-block- isobutylene -block-styrene) ("SIBS"). Biomaterials. 2008;(29):448-460.
[37] ARRIETA EA, ALY M, PARRISH R, et al.Clinicopathologic Correlations of Poly-(styrene-b-isobutylene-b-styrene) Glaucoma Drainage Devices of Different Internal Diameters in Rabbits.Ophthalmic Surg Lasers Imaging.2011;42(4):338-345.
[38] ACOSTA AC, ESPANA EM, YAMAMOTO H, et al.A newly designed glaucoma drainage implant made of poly (styrene-b-isobutylene-b- styrene): biocompatibility and function in normal rabbit eyes. Arch Ophthalmol.2006;124(12):1742-1749.
[39] PINCHUK L, RISS I, BATLLE JF, et al.The development of a micro-shunt made from poly(styrene-block-isobutylene-block-styrene) to treat glaucoma.J Biomed Mater Res B Appl Biomater.2017;105(1):211-221.
[40] REN K, ZHANG M, HE J, et al.Preparation of polymeric prodrug paclitaxel-poly(lactic acid)-b-polyisobutylene and its application in coatings of drug eluting stent. ACS Appl Mater Interfaces. 2015;7(21): 11263-11271.
[41] SIPOS L, SOM A, FAUST R.Controlled delivery of paclitaxel from stent coatings using poly(hydroxystyrene-b-isobutylene-b-hydroxystyrene) and its acetylated derivative.Biomacromolecules.2005;6:2570-2582.
[42] CHO JC, CHENG G, FENG D, et al Synthesis, characterization, properties, and drug release of poly(alkyl methacrylate-b-isobutylene- b-alkyl methacrylate).Biomacromolecules. 2006;7:2997-3007.
[43] TRANT JF, MCEACHRAN M, SRAN I, et al.Covalent polyisobutylene- paclitaxel conjugates for controlled release from potential vascular stent coatings.ACS Appl Mater Interfaces. 2015;7(26):14506-14517.
[44] GALLOCHER SL, AGUIRRE AF, KASYANOV V, et al.A novel polymer for potential use in a trileaflet heart valve.J Biomed Mater Res B Appl Biomater.2006;79(2):325-334.
[45] WANG Q, MCGORON AJ, PINCHUK L, et al.A novel small animal model for biocompatibility assessment of polymeric materials for use in prosthetic heart valves.J Biomed Mater Res A.2009;(2):442-453.
[46] CLAIBORNE TE, GIRDHAR G, GALLOCHER-LOWE S, et al. Thrombogenic potential of innovia polymer valves versus Carpentier-Edwards Perimount Magna aortic bioprosthetic valves. ASAIO J.2011:26-31.
[47] SHERIFF J, CLAIBORNE TE, TRAN PL, et al.Physical characterization and platelet interactions under shear flows of a novel thermoset polyisobutylene-based co-polymer.ACS Appl Mater Interfaces. 2015;7(39):22058-22066.
[48] LIM GT, VALENTE SA, HART-SPICER CR, et al.New biomaterial as a promising alternative to silicone breast implants.J Mech Behav Biomed Mater.2013;21:47-56.
[49] KENNEDY JP.Designed rubbery biomaterials.Macromol Symp. 2001; 175:127-131.
[50] CEYLAN D, OKAY O.Macroporous polyisobutylene gels: a novel tough organogel with superfast responsivity.Macromolecules.2007;40: 8742-8749.
[51] DOGU S, OKAY O.Tough organogels based on polyisobutylene with aligned porous structures[J]. Polymer.2008;49:4626-4634.
[52] BURKHARDT M, RUPPEL M, TEA S, et al. Water-soluble interpolyelectrolyte complexes of polyisobutylene-block-poly (methacrylic acid) micelles formation and properties.Langmuir.2008;24: 1769-1777.
[53] ASKES SHC, BOSSERT N, BUSSMANN J, et al.Dynamics of dual-fluorescent polymersomes with durable integrity in living cancer cells and zebrafish embryos.Biomaterials.2018;168:54-63.
[54] BAKER BM, HANDORF AM, IONESCU LC, et al.New direcion in nanofibrous scaffolds for soft tissue engineering and regeneration. Expert Rev Med Devices.2009;6(5):515-532.
[55] PUSKAS JE, SEN S.Synthesis of Biodegradable Polyisobutylene Disulfides by Living Reversible Recombination Radical Polymerization.Macromolecules.2017;50(7):2615-2624.
[56] SIPOS L, ZSUGA M, DEAK G.Synthesis of poly (L-lactide)-block- polyisobutylene-block- poly(L-lactide), a new biodegradable thermoplastic elastomer.Macromol Rapid Comm. 1995;16:935-940.
[57] CASTANO M, ALVAREZ A, BECKER ML, et al.Synthesis of polyisobutylene-polycaprolactone block copolymers using enzyme catalysis.Express Polym Lett.2016;10(8):693-700.
[58] ALBARRAN AA, ROSENTHAL-KIM EQ, KANTOR J, et al. Stimuli- responsive antifouling polyisobutylene-based biomaterials via modular surface functionalization.J Polym Sci A Polym Chem. 2017;55(10): 1742-1749.
[59] DURAISWAMY N, CHOKSI TD, PINCHUK L, et al. A Phospholipid- modified Polystyrene-Polyisobutylene- Polystyrene (SIBS) Triblock Polymer for Enhanced Hemocompatibility and Potential Use in Artificial Heart Valves.J Biomater Appl. 2008;23(4):367-379.
[60] WU Y, LI K, XIANG D, et al.Surface immobilization of heparin on functional polyisobutylene-based thermoplastic elastomer as a potential artificial vascular graft.Appl Surf Sci.2018;445:8-15.
[61] NOOR M, DWORECK T, SCHENK A, et al.Polymersome surface decoration by an EGFP fusion protein employing Cecropin A as peptide “anchor”.J Biotechnol.2012;(157):31-37.
[62] CADIEUX P, WATTERSON JD, DENSTEDT J, et al.Potential application of polyisobutylene-polystyrene and a Lactobacillus protein to reduce the risk of device-associated urinary tract infections.Colloids Surf B Biointerfaces.2003;28(2-3):95-105.
[63] TSENG DY, EDELMAN E.Effects of amide and amine plasma-treated ePTFE vascular grafts on endothelial cell lining in an artificial circulatory system.J Biomed Mater Res B Appl Biomater. 1998;42(2):188-198.
[64] DU Y, LI C, JIN J, et al. Surface modification of polyisobutylene via grafting amino acid-based poly (acryloyl-6-aminocaproic acid) as multifunctional material.Colloids Surf B Biointerfaces.2018;(161):73-82.
[65] LIM GT, PUSKAS JE, RENEKER DH, et al.Highly hydrophobic electrospun fiber mats from polyisobutylene-based thermoplastic elastomers.Biomacromolecules.2011;12:1795-1799.
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