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Polymer Bulletin

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22.11.2017 | Original Paper

Cellulose acetate/sericin blend membranes for use in dialysis

verfasst von: Hizba Waheed, Fozia T. Minhas, Arshad Hussain

Erschienen in: Polymer Bulletin | Ausgabe 9/2018

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Abstract

The objective of this research is to synthesize cellulose acetate (CA) based membranes for hemodialysis. It is planned to blend sericin with CA to make CA/sericin blend membranes for examining the increment in dialysis efficiency of CA. Afterwards contact angle measurement, porosity, molecular weight cutoff, pure water flux and water uptake of blend membranes are determined to check the change in CA matrix after modification. Moreover, the surface morphology of CA/sericin blend membranes examined using SEM, AFM and FTIR analysis. These results reveal successful and homogenous blending of sericin in CA. The Bovine Serum Albumin (BSA) rejection and urea clearance of CA/sericin blend membranes were investigated to view their applicability in dialysis operation. Furthermore, concentration of sericin is varied in CA/sericin blend membranes and its impact was inspected on BSA rejection and Urea clearance. It is observable that M4 is showing best results among all prepared membranes. The increase of 7.5% sericin in CA matrix remarkably augments the BSA rejection and urea clearance up to 96 and 60%, respectively. Mainly protein nature of both sericin and BSA is responsible for the notable BSA rejection of CA/sericine blend membranes. Conclusively, the present study is novel and considerably applicable in wide range of dialysis procedure.

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US Renal Data System, USRDS (2009) Annual data report: atlas of chronic kidney disease and end-stage renal disease in the United States. National Institutes of Health, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD. http://cjasn.asnjournals.org/content/4/Supplement_1/S5.full

Smeby LC, Wideroe TE, Balstad T, Jorstad S (1986) Biocompatibility aspects of cellophane, cellulose acetate, polyacrylonitrile, polysulfone and polycarbonate hemodialyzers. Blood Purif 4:93–101CrossRefPubMed

Hartmann K, Henz BM, Kruger-Krasagakes S, Kohl J, Burger R, Guhl S, Haase I, Lippert U, Zuberbier T (1997) C3a and c5a stimulate chemotaxis of human mast cells. Blood 89:2853–2870

Sivakumar M, Mohan Raju D, Rangarajan R (1998) Preparation and performance of cellulose acetate polyurethane blend membranes and their applications. Part 1. Polym Int 47:311–316CrossRef

Deshmukh SP, Li K (1998) Effect of ethanol composition in water coagulation bath on morphology of PVDF hollow fiber membrane. J Membr Sci 150:75–85CrossRef

Yin L, Huanlin C, Bogeng L (2002) Influence of additives on phase separation process of PVDF solution and membrane morphology. Acta Polym Sin 5:656–661

Fushimi F, Nakayama M, Nishimura K, Hiyoshi T (1998) Platelets adhesion, contact phase coagulation activation, and c5a generation of polyethylene glycol acid-grafted high flux cellulosic membrane with varieties of grafting amounts. Artif Organs 22:821–826CrossRefPubMed

Diamantoglou M, Nywlt M, Holz W (2000) Method of making cellulosic dialysis membrane. US Patent 6,019,925

Ye SH, Watanabe J, Iwasaki Y, Ishihara K (2005) In situ modification on cellulose acetate hollow fiber membrane modified with phospholipid polymer for biomedical application. J Membr Sci 249:133–141CrossRef

10.

Ye SH, Watanabe J, Takai M, Iwasaki Y, Ishihara K (2005) Design of functional hollow fiber membranes modified with phospholipid polymers for application in total hemo purification system. Biomaterials 26:5032–5041CrossRefPubMed

11.

Alonso-Echanove J, Sippy BD, Chin AE, Cairns L (2006) The transfusion-associated red eye syndrome study group, infection control and hospital, nationwide outbreak of red eye syndrome associated with transfusion of leukocyte-reduced red blood cell units. Epidemiology 27:1146–1152

12.

Hoenich NA, Woffindin C, Mathews JNS, Vienken J (1995) Biocompatibility of membranes used in the treatment of renal failure. Biomaterials 16:587–592CrossRefPubMed

13.

Tomaszewska M (1996) Preparation and properties of flat sheet membranes from poly(vinylidene fluoride) for membrane distillation. Desalination 104:1–11CrossRef

14.

Stropnik C, Germic L, Zerjal B (1996) Morphology variety and formation mechanisms of polymeric membranes prepared by wet phase inversion. J Appl Polym Sci 61:1821–1830CrossRef

15.

Nguyen TD, Matsuura T, Sourirajan S (1987) Effect of non-solvent additives on the pore size and the pore size distribution of aromatic polyamide reverse osmosis membranes. Chem Eng Commun 54:17–36CrossRef

16.

Idris A, Yet LK (2006) The effect of different molecular weight PEG additives on cellulose acetate asymmetric dialysis membrane performance. J Membr Sci 280:920–927CrossRef

17.

Kee CM, Idris A (2010) Permeability performance of different molecular weight cellulose acetate hemodialysis membrane. Sep Purif Technol 75:102–113CrossRef

18.

Guan R, Zou H, Lu D, Gong C, Liu Y (2005) Polyethersulfone sulfonated by chlorosulfonicacid and its membrane characteristics. Eur Polym J 41:1554–1560CrossRef

19.

Xu ZK, Nie FQ, Qu C, Wan LS, Wu J, Yao K (2005) Tethering poly (ethylene glycol) to improve the surface biocompatibility of poly(acrylonitrile-co-maleic acid)asymmetric membranes. Biomaterials 26:589–598CrossRefPubMed

20.

Chen Z, Deng M, Chen Y, He G, Wu M, Wang J (2004) Preparation and performance of celluloseacetate/polyethyleneimine blend microfiltration membranes and their applications. J Membr Sci 235:73–86CrossRef

21.

Jia Z, Tian C (2009) Quantitative determination of polyethylene glycol with modified Dragendorff reagent method. Desalination 247:423–429CrossRef

22.

Senthilkumar S, Rajesh S, Mohan Raju D, Soundararajan P (2013) Preparation, characterization, and performance evaluation of poly(ether-imide) incorporated acetate ultrafiltration membrane for hemodialysis. Sep Sci Technol 48:66–75CrossRef

23.

Sivakumar M, Mohana DR, Rangarajan R (2006) Studies on cellulose acetate-polysulfone ultrafiltration membranes II. Effect of additive concentration. J Membr Sci 268:208–219CrossRef

24.

Waheed H, Hussain A, Farrukh S (2016) Fabrication, characterization and permeation study of ultrafiltration dialysis membranes. Desalination 57:24799–24806CrossRef

25.

Chiti F, Dobson CM (2006) Protein misfolding, functional amyloid and human disease. Annu Rev Biochem 75:333–366CrossRefPubMed

26.

Idris A, Zain NM, Noordin MY (2007) Synthesis, characterization and performance of a symmetric polyethersulfone (PES) ultrafiltration membranes with poly-ethylene glycol of different molecular weights as additives. Desalination 207:324–339CrossRef

27.

Idris A, Hew KY, Chan MK (2009) Preparation of cellulose acetate dialysis membrane using d-glucose monohydrate as additive. J Teknol (Kejuruteraan) 51:67–76

28.

Farrukh S, Minhas FT, Hussain A, Memon S, Bhanger MI, Mujahid B (2014) Preparation, characterization, and applicability of novel calix[4]arene-based cellulose acetate membranes in gas permeation. J Appl Polym Sci 131:39985CrossRef

29.

Idris A, Lee KY, Noordin M, Chan MK (2008) Response surface methodology approach to study the influence of PEG and water in cellulose acetate dialysis membranes. J Teknol F 49:39–49

30.

Iwasaki Y, Yamato H, Kono TN, Fujieda A, Uchida M, Hosokawa A, Motojima M, Fukagawa M (2006) Ureamic toxin and bone metabolism. J Bone Miner Metab 24:172–175CrossRefPubMed

31.

Sakai K (1994) Determination of pore size and pore size distribution 2. Dialysis membranes. J Membr Sci 96:91–130CrossRef

32.

Lesaffer G, De Smet R, Lameire N, Dhondt A, Duym P, Vanholder R (2000) Intra dialytic removal of protein-bound uraemic toxins: role of solute characteristics and of dialyse membrane. Nephrol Dial Transplant 15:50–57CrossRefPubMed

33.

Vanholder R, De Smet RV, Ringoir SM (1992) Assessment of urea and other uremic markers for quantification of dialysis efficacy. Clin Chem 38:1429–1436PubMed

34.

Irfan M, Idris A, Yusof NM, Khairuddin NFM, Akhmal H (2014) Surface modification and performance enhancement of nano-hybrid f-MWCNT/PVP90/PES hemodialysis membranes. J Membr Sci 467:73–84CrossRef

35.

Eknoyan G, Beck GJ, Cheung AK, Daugirdas JT, Greene T, Kusek JW, Allon M, Bailey J, Delmez JA, Depner TA (2002) Effect of dialysis dose and membrane flux in maintenance hemodialysis. N Engl J Med 347:2010–2019CrossRefPubMed

Titel: Cellulose acetate/sericin blend membranes for use in dialysis
verfasst von: Hizba Waheed
Fozia T. Minhas
Arshad Hussain
Publikationsdatum: 22.11.2017
Verlag: Springer Berlin Heidelberg
Erschienen in: Polymer Bulletin / Ausgabe 9/2018
Print ISSN: 0170-0839
Elektronische ISSN: 1436-2449
DOI: https://doi.org/10.1007/s00289-017-2238-1

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