血液透析是治疗肾功能衰竭的一种最重要方法,而血液透析器是血液透析净化临床医学的重要器械之一.透析膜是血液透析器的关键核心元件,对治疗效果起着决定性作用.本文较全面的介绍了血液透析膜材料发展历程及趋势;并详细阐述了透析膜材料的血液相容性及改性方法的研究,包括抗凝血性、氧化应激、补体激活等方面;此外,也对透析膜组件的发展历程进行了较为详细的介绍.
参考文献
| [1] | Jacob A I;Gavellas G;Zarco R et al.Leukopenia,hypoxia,and complement function with different hemodialysis membranes[J].Kidney International,1980,18(4) |
| [2] | Baeyer V;Lajous-Petter H A;Debrandt W et al.Surface reactions on blood contact during haemodialysis and haemofiltration with various membrane types[J].Journal of Membrane Science,1988,36:215-229. |
| [3] | Ebert K O.Membranen:Grundlagen,Verfahren und industrielle Anwendungen[M].John Wiley & Sons,Inc,2012 |
| [4] | Liu P S;Chen Q;Wu S S et al.Surface modification of cellulose membranes with zwitterionic polymers for resistance to protein adsorption and platelet adhesion[J].Journal of Membrane Science,2010,350(1):387-394. |
| [5] | Wibowo A C;Misra M;Park H M et al.Biodegradable nanocomposites from cellulose acetate:mechanical,morphological,and thermal properties[J].Composites Part A:Applied Science and Manufacturing,2006,37(9):1428-1433. |
| [6] | Ran F;Nie S;Zhao W et al.Biocompatibility of modified polyethersulfone membranes by blending an amphiphilic triblock co-polymer of poly(vinyl pyrrolidone)b-poly(methyl methacrylate)-b-poly(vinyl pyrrolidone)[J].ACTA BIOMATERIALIA,2011,7(9):3370-3381. |
| [7] | Nie S;Xue J;Lu Y et al.Improved blood compatibility of polyethersulfone membrane with a hydrophilic and anionic surface[J].Colloids and Surfaces B-Biointerfaces,2012,100:116-125. |
| [8] | Ran F;Nie S;Li J et al.Heparin-like macromolecules for the modification of anticoagulant biomaterials[J].Macromolecular Bioscience,2012,12(1):116-125. |
| [9] | Li L;Cheng C;Xiang T et al.Modification of polyethersulfone hemodialysis membrane by blending citric acid grafted polyurethane and its anticoagulant activity[J].Journal of Membrane Science,2012,405-406:261-274. |
| [10] | Idris A;Yet LK .The effect of different molecular weight PEG additives on cellulose acetate asymmetric dialysis membrane performance[J].Journal of Membrane Science,2006(1/2):920-927. |
| [11] | Fang B;Ling Q;Zhao W et al.Modification of polyethersulfone membrane by grafting bovine serum albumin on the surface of polyethersulfone/poly (acrylonitrile-co-acrylic acid) blended membrane[J].Journal of Membrane Science,2009,329(1):46-55. |
| [12] | Hasegawa T;Iwasaki Y;Ishihara K .Preparation and performance of protein-adsorption-resistant asymmettic porous membrane composed of polysulfone/phospholipid polymer blend[J].BIOMATERIALS,2001,22(3):243-251. |
| [13] | Ishihara K;Fukumoto K;Iwasaki Y;Nakabayashi N .Modification of polysulfone with phospholipid polymer for improvement of the blood compatibility. Part 2. Protein adsorption and platelet adhesion.[J].Biomaterials,1999(17):1553-1559. |
| [14] | Heru Susanto;Mathias Ulbricht .Photografted Thin Polymer Hydrogel Layers on PES Ultrafiltration Membranes: Characterization, Stability, and Influence on Separation Performance[J].Langmuir: The ACS Journal of Surfaces and Colloids,2007(14):7818-7830. |
| [15] | Ulbricht M;Matuschewski H;Oechel A et al.Photo-induced graft polymerization surface modifications for the preparation of hydrophilic and low-proten-adsorbing ultrafiltration membranes[J].Journal of Membrane Science,1996,115(1):31-47. |
| [16] | Zhu L P;Yi Z;Liu F et al.Amphiphilic graft copolymers based on ultrahigh molecular weight poly (styrenemaleic anhydride) with poly (ethylene glycol) side chains for surface modification of polyethersulfone membranes[J].European Polymer Journal,2008,44(6):1907-1914. |
| [17] | Li J;Huang X J;Ji J et al.Covalent heparin modification of a polysulfone flat sheet membrane for selective removal of low-density lipoproteins:a simple and versatile method[J].Macromolecular Bioscience,2011,11(9):1218-1226. |
| [18] | Yue W W;Li H J;Xiang T et al.Grafting of zwitterion from polysulfone membrane surface-initiated ATRP with enhanced antifouling property and biocompatibility[J].Journal of Membrane Science,2013,446:79-91. |
| [19] | Su B H;Shi Y;Fu P et al.Clinical evaluation of polyethersulfone high-flux hemodialysis membrane compared to other membranes[J].Journal of Applied Polymer Science,2012,124(z1):E91-E98. |
| [20] | 刘霆,余喜讯,赵长生,卢忠平,程莉萍,孟文彤,乐以伦.聚醚砜中空纤维膜血浆分离器血浆分离功能与血液相容性的评价[J].生物医学工程学杂志,2000(03):249-254. |
| [21] | Su B H;Fu P;Li Q et al.Evaluation of polyethersulfone highflux hemodialysis membrane in vitro and in vivo[J].J Mater Sci:Materials in Medicine,2008,19(2):745-751. |
| [22] | Nguyen Q T;Blanc L L;Neel J .Preparation of membranes from polyacrylonitrile-polyvinylpyrrolidone blends and the study of their behaviour in the pervaporation of water-organic liquid mixtures[J].Journal of Membrane Science,1985,22(2):245-255. |
| [23] | Nishio Y;Roy S K;Manley R .Blends of cellulose with polyacrylonitrile prepared from N-dimethylacetamide-lithium chloride solutions[J].POLYMER,1987,28(8):1385-1390. |
| [24] | Islam M;Stoicheva R;Dimov A .An investigation on the deformational properties of porous poly (vinyl chloride)and co-poly (butadiene-acrylonitrile) blend membranes[J].Journal of Membrane Science,1996,118(1):9-15. |
| [25] | Goldman M;Lagmiche M;Dhaene M et al.Adsorption of beta 2-microglobulin on dialysis membranes:Comparison of different dialyzers and effects of reuse procedures[J].International Journal of Artificial Organs,1989,12(6):373. |
| [26] | Zingraff J;Beyne P;Urena P et al.Influence of haemodialysis membranes on β2-microlobulin kinetics:In vivo and in vitro studies[J].Nephr Dialys Transplant,1988(3):284-290. |
| [27] | Bouman C S;van Olden R W;Stoutenbeek C P .Cytokine filtration and adsorption during pre-and postdilution hemofiltration in four different membranes[J].Blood Purification,1999,16(5):261-268. |
| [28] | Urena P;Herbelin A;Zingraff J et al.Permeability of cellulosic and non-cellulosic membranes to endotoxin subunits and cytokine production during in-vitro haemodialysis[J].Nephr Dialys Transplant,1992,7(1):16-28. |
| [29] | Chanard J;Lavaud S;Randoux C et al.New insights in dialysis membrane biocompatibility:Relevance of adsorption properties and heparin binding[J].Nephr Dialys Transplant,2003,18(2):252-257. |
| [30] | Chanard J;Lavaud S;Maheut H et al.The clinical evaluation of low-dose heparin in haemodialysis:A prospective study using the heparin-coated AN69 ST membrane[J].Nephr Dialys Transplant,2008,23(6):2003-2009. |
| [31] | Aucella F;Vigilante M;Gesuete A et al.Uraemic itching:do polymethylmethacrylate dialysis membranes play a role[J].Nephrol Dialys Transplant,2007,22(suppl 5):v8-v12. |
| [32] | Yamashita A C;Tomisawa N .Membrane materials for blood purification in critical care[J].Contrib Nephr,2010,166:112-118. |
| [33] | Yamashita A C;Tomisawa N .Importance of membrane materials for blood purification devices in critical care[J].Transf Aph Sci,2009,40(1):23-31. |
| [34] | Zaoui P M;Stone W J;Hakim R M .Effects of dialysis membranes on betaβ2-microglobulin production and cellular expression[J].Kidney International,1990,38(5) |
| [35] | Sirolli V;Ballone E;Di Stante S et al.Cell activation and cellular-cellular interactions during hemodialysis:effect of dialyzer membrane[J].International Journal of Artificial Organs,2002,25(6):529-537. |
| [36] | 张国栋,杨纪元,冯新德,顾忠伟.聚乳酸的研究进展[J].化学进展,2000(01):89-102. |
| [37] | Tanaka T;Lloyd D R .Formation of poly (L-lactic acid) microfiltration membranes via thermally induced phase separation[J].Journal of Membrane Science,2004,238(1):65-73. |
| [38] | Tanaka T;Nishimoto T;Tsukamoto K et al.Formation of depth filter microfiltration membranes of poly (L-lactic acid) via phase separation[J].Journal of Membrane Science,2012,396:101-109. |
| [39] | Moriya A;Maruyama T;Ohmukai Y et al.Preparation of poly (lactic acid) hollow fiber membranes via phase separation methods[J].Journal of Membrane Science,2009,342(1):307-312. |
| [40] | Moriya A;Shen P;Ohmukai Y et al.Reduction of fouling on poly (lactic acid) hollow fiber membranes by blending with poly (lactic acid) polyethylene glycol poly (lactic acid) triblock copolymers[J].Journal of Membrane Science,2012,415:712-717. |
| [41] | Bettahalli N;Steg H;Wessling M et al.Development of poly (L-lactic acid) hollow fiber membranes for artificial vasculature in tissue engineering scaffolds[J].Journal of Membrane Science,2011,371(1):117-126. |
| [42] | Gao A;Liu F;Xue L .Preparation and evaluation of heparin-immobilized poly (lactic acid) (PLA) membrane for hemodialysis[J].Journal of Membrane Science,2014,452:390-399. |
| [43] | 高爱林,刘富,薛立新.生物基聚乳酸微孔膜的制备及透析性能[J].膜科学与技术,2013(04):28-34. |
| [44] | ParkJ Y;Acar M H;Akthakul A et al.Polysulfonegraft-poly(ethylene glycol) graft copolymers for surface modification of polysulfone membranes[J].BIOMATERIALS,2006,27(6):856-865. |
| [45] | Liu T Y;LinWC;Huang L Y et al.Hemocompatibility and anaphylatoxin formation of protein-immobilizing polyacrylonitrile hemodialysis membrane[J].BIOMATERIALS,2005,26(12):1437-1444. |
| [46] | Wang L;Cai Y;Jing Y et al.Route to hemocompatible polyethersulfone membranes via surface aminolysis and heparinization[J].Journal of Colloid and Interface Science,2014,422:38-44. |
| [47] | Wang L;Cui Y;Wang N et al.Aminolytic depolymerization of polyarylsulfones[J].Polymer Degradation and Stability,2014,103:69-74. |
| [48] | Wang L;Wang J;Gao X et al.A facile transetherification route to polysulfone-poly (ethylene glycol) amphiphilic block copolymers with improved protein resistance[J].Polym Chem,2014,5(8):2836-2842. |
| [49] | Kung F C;Yang M C .Effect of conjugated linoleic acid immobilization on the hemocompatibility of cellulose acetate membrane[J].Colloids and Surfaces B-Biointerfaces,2006,47(1):36-42. |
| [50] | Fu-Chen Kung;Ming-Chien Yang .Effect of conjugated linoleic acid grafting on the hemocompatibility of polyacrylonitrile membrane[J].Polymers for advanced technologies,2006(6):419-425. |
| [51] | Kung FC;Yang MC .The effect of covalently bonded conjugated linoleic acid on the reduction of oxidative stress and blood coagulation for polysulfone hemodialyzer membrane[J].International Journal of Biological Macromolecules: Structure, Function and Interactions,2006(3/5):157-164. |
| [52] | Kung F C;Chang J J;Yang M C .The reduction of oxidative stress,anticoagulation of platelets,and inhibition of lipopolysaccharide by conjugated linoleic acid bonded on a polysulfone membrane[J].Polymers for Advanced Technologies,2007,18(4):286-291. |
| [53] | 刘成梅,冯妹元,刘伟,涂宗财,梁瑞红.天然维生素E及其抗氧化机理[J].食品研究与开发,2005(06):205-208. |
| [54] | Sasaki M;Hosoya N;Saruhashi M .Vitamin E modified cellulose membrane[J].Artificial Organs,2000,24(10):779-789. |
| [55] | Floridi A;Piroddi M;Pilolli F et al.Analysis method and characterization of the antioxidant capacity of vitamin E-interactive polysulfone hemodialyzers[J].ACTA BIOMATERIALIA,2009,5(8):2974-2982. |
| [56] | Sasaki M .Development of vitamin E-modified polysulfone membrane dialyzers[J].Artificial Organs,2006,9(1):50-60. |
| [57] | Dahe G J;Teotia R S;Kadam S S et al.The biocompatibility and separation performance of antioxidative polysulfone/vitamin E TPGS composite hollow fiber membranes[J].BIOMATERIALS,2011,32(2):352-365. |
| [58] | Yamamoto K I;Matsuda M;Okuoka M et al.Antioxidation property of vitamin E-coated polysulfone dialysis membrane and recovery of oxidized vitamin E by vitamin C treatment[J].Journal of Membrane Science,2007,302(1):115-118. |
| [59] | Weerakody R;Fagan P;Kosaraju S L .Chitosan microspheres for encapsulation of α-lipoic acid[J].International Journal of Pharmaceutics,2008,357(1):213-218. |
| [60] | Controlled Release Of Alpha-lipoic Acid Through Incorporation Into Natural Polysaccharide-based Gel Beads[J].Food Chemistry,2009(2):483-487. |
| [61] | Trombino S;Cassano R;Bloise E;Muzzalupo R;Leta S;Puoci F;Picci N .Design and synthesis of cellulose derivatives with antioxidant activity[J].Macromolecular bioscience,2008(1):86-95. |
| [62] | Jansen J C;Cassano R;Trombino S et al.Polymeric membranes with antioxidant activity based on cellulose esters and poly (vinylidene fluoride) /cellulose ester blends[J].CELLULOSE,2011,18(2):359-370. |
| [63] | Mahlicli F Y;Altinkaya S A .Immobilization of alpha lipoic acid onto polysulfone membranes to suppress hemodialysis induced oxidative stress[J].Journal of Membrane Science,2014,449:27-37. |
| [64] | Hakim R M;Breillatt J;Lazarus J M et al.Complement activation and hypersensitivity reactions to dialysis membranes[J].New England J Medic,1984,311(14):878-882. |
| [65] | Muthusubramaniam L;Lowe R;Fissell W H et al.Hemocompatibility of silicon-based substrates for biomedical implant applications[J].Annals of Biomedical Engineering,2011,39(4):1296-1305. |
| [66] | 徐又一;徐志康.高分子膜材料[M].北京:化学工业出版社,2005 |
| [67] | Abel J J;Rowntree L G;Turner B .On the removal of diffusible substances from the circulating blood of living animals by dialysis[J].Journal of Pharmacology and Experimental Therapeutics,1914,5(3):275-316. |
| [68] | Haas G .Dialysis of the flowing blood in the patient[J].KLINISCHE WOCHENSCHRIFT,1923,70(1):888. |
| [69] | Kolff W;Berk H;Welle N M et al.The artificial kidney:A dialyser with a great area[J].ACTA MEDICA SCANDINAVICA,1944,117(2):121-134. |
| [70] | Alwall N .On the artificial kidney.I.Apparatus for dialysis of blood in vivo[J].ACTA MEDICA SCANDINAVICA,1947,128(4):317-325. |
| [71] | Alwall N .On the Artificial Kidney XⅢ Constructional details of the dialyzer-ultrafiltrator intended for homo[J].ACTA MEDICA SCANDINAVICA,1949,133(z229):30-31. |
| [72] | Alwall N .Historical perspective on the development of the artificial kidney[J].Artificial Organs,1986,10(2):86-99. |
| [73] | Skeggs L T;Leonards J R .Studies on an artificial kidney:I.Preliminary results with a new type of continuous dialyzer[J].SCIENCE,1948,108(2800):212-213. |
| [74] | Twardowski Z .On the advantages and possibility of constructing a "capillary" artificial kidney[J].ACTA MEDICA POLONA,1964,5:303. |
| [75] | Stewart R D;Lipps B J;Baretta E D et al.Shortterm hemodialysis with the capillary kidney[J].ASAIO Journal,1968,14(1):121-125. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%