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Journal Abstract Search

406 related items for PubMed ID: 9708616

  • 1.
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  • 2. Effects of hemodialyzer reuse on clearances of urea and beta2-microglobulin. The Hemodialysis (HEMO) Study Group.
    Cheung AK, Agodoa LY, Daugirdas JT, Depner TA, Gotch FA, Greene T, Levin NW, Leypoldt JK.
    J Am Soc Nephrol; 1999 Jan; 10(1):117-27. PubMed ID: 9890317
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  • 5. Impact of bleach cleaning on the performance of dialyzers with polysulfone membranes processed for reuse using peracetic Acid.
    Ward RA, Ouseph R.
    Artif Organs; 2003 Nov; 27(11):1029-34. PubMed ID: 14616521
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  • 7. Beta(2)-microglobulin clearance decreases with Renalin reuse.
    Castro R, Morgado T.
    Nephron; 2002 Mar; 90(3):347-8. PubMed ID: 11867958
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  • 8. Maintaining blood compartment volume in dialyzers reprocessed with peracetic acid maintains Kt/V but not beta2-microglobulin removal.
    Ouseph R, Smith BP, Ward RA.
    Am J Kidney Dis; 1997 Oct; 30(4):501-6. PubMed ID: 9328364
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  • 9. Increases in mass transfer-area coefficients and urea Kt/V with increasing dialysate flow rate are greater for high-flux dialyzers.
    Leypoldt JK, Cheung AK.
    Am J Kidney Dis; 2001 Sep; 38(3):575-9. PubMed ID: 11532691
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  • 11. Impact of blood and dialysate flow and surface on performance of new polysulfone hemodialysis dialyzers.
    Mandolfo S, Malberti F, Imbasciati E, Cogliati P, Gauly A.
    Int J Artif Organs; 2003 Feb; 26(2):113-20. PubMed ID: 12653344
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  • 12. Clinical evaluation of four different high-flux hemodialyzers under conventional conditions in vivo.
    Sombolos K, Tsitamidou Z, Kyriazis G, Karagianni A, Kantaropoulou M, Progia E.
    Am J Nephrol; 1997 Feb; 17(5):406-12. PubMed ID: 9382156
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  • 13. Reprocessed (high-flux) Polyflux dialyzers resist trans-membrane endotoxin passage and attenuate inflammatory markers.
    Teehan GS, Guo D, Perianayagam MC, Balakrishnan VS, Pereira BJ, Jaber BL.
    Blood Purif; 2004 Feb; 22(4):329-37. PubMed ID: 15240988
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  • 14. Reprocessing high-flux polysulfone dialyzers does not negatively impact solute removal in short-daily online hemodiafiltration.
    Melo NC, Moyses RM, Elias RM, Castro MC.
    Hemodial Int; 2014 Apr; 18(2):473-80. PubMed ID: 24393428
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  • 15. Increased binding of beta-2-microglobulin to blood cells in dialysis patients treated with high-flux dialyzers compared with low-flux membranes contributed to reduced beta-2-microglobulin concentrations. Results of a cross-over study.
    Traut M, Haufe CC, Eismann U, Deppisch RM, Stein G, Wolf G.
    Blood Purif; 2007 Apr; 25(5-6):432-40. PubMed ID: 17957097
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  • 16. Rebound kinetics of beta2-microglobulin after hemodialysis.
    Leypoldt JK, Cheung AK, Deeter RB.
    Kidney Int; 1999 Oct; 56(4):1571-7. PubMed ID: 10504510
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  • 17. Water permeability of high-flux dialyzer membranes after Renalin reprocessing.
    Labib ME, Murawski J, Tabani Y, Wolff SH, Zydney AL, Funderburk FR, Huang Z, Kapoian T, Sherman RA.
    Kidney Int; 2007 Jun; 71(11):1177-80. PubMed ID: 17377505
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  • 18. Dialyzer-dependent changes in solute and water permeability with bleach reprocessing.
    Scott MK, Mueller BA, Sowinski KM, Clark WR.
    Am J Kidney Dis; 1999 Jan; 33(1):87-96. PubMed ID: 9915272
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  • 19. Effect of increasing dialysate flow rate on diffusive mass transfer of urea, phosphate and beta2-microglobulin during clinical haemodialysis.
    Bhimani JP, Ouseph R, Ward RA.
    Nephrol Dial Transplant; 2010 Dec; 25(12):3990-5. PubMed ID: 20543211
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  • 20. Diacap alpha-polysulfone HI PS: a new dialysis membrane with optimum beta2-microglobulin elimination.
    Mann H, Al-Bashir A, Melzer H, Stiller S.
    Int J Artif Organs; 2003 Jun; 26(6):461-6. PubMed ID: 12866651
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