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Abstract

Introduction

Postdilution hemofiltration with a polyamide membrane is a renal replacement technique widely used, but very little information is available regarding the biocompatibility of this treatment. In this paper we report the results of an acute study of the biocompatibility of polyamide hemofiltration.

Patients and methods

Complement activation such as C3a and C5a Des Arg (RIA), granulocyte degranulation like alpha 1 elastase intradialytic increase (ELISA) and the expression of high affinity membrane receptors for IL-2 (anti-TAC) were determined. Beta 2-microglobulin (RIA) intradialytic decrease, as well as its convective removal, was evaluated. The nature of protein layer adsorbed onto the polyamide membrane, at the end of the dialytic session was investigated with a new immunohistochemical tecnique. Cell-associated cytokine concentration (like IL-1 beta and IL-1Ra - ELISA) was determined on mononuclear cell lysates.

Results

A low degree of complement activation was detected with the polyamide membrane when data were adjusted for hemoconcentration and for 1 m² of membrane surface area. An important convective removal not only of Beta 2-microglobulin (258±20 mg/session), but also of the activated anaphylatoxins (225±76 ng/ml for C3a and 22.5±4 ng/ml for C5a) was revealed. A marked deposition of all coagulation factors with no detectable amount of immunoglobulins and complement factors was revealed on the polyamide membrane at the end of the dialytic session. No intradialytic (for IL-1beta) (from 14.1±3.0 to 13.5±2.9 pg/ 2.5 x 10⁶ cell) and interdialytic (for IL-1Ra) (from 4572±1076 to 5408±615 pg/ 2.5 x 10⁶ cell) cell-associated cytokine expression was induced by hemofiltration.

Discussion and Conclusion

Polyamide hemofiltration is a highly biocompatible technique due to the use of a synthetic membrane with a sterile reinfusion fluid and the convective removal of the activated anaphylatoxins and Beta 2-microglobulin.

Keywords

Hemofiltration Polyamide membrane Complement activation Granulocyte elastase Protein layer Cytokines

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References

Lazarus

J.M.

, Owen

F.W.

. Role of biocompatibility in dialysis morbidity and mortality. Am J Kidney Dis 1994; 6: 1019–32.

Herrath

, von Hufler

, Hartenstein-Koch

, Kutshera

, Schaefer

, Dati

. Good biocompatibility of the polyamide hemofilter. Blood Purif 1988; 6: 106–10.

Schaefer

R.M.

, Gilge

, Goehl

, Heidland

. Evaluation of a new polyamide (Polyflux 130 in high-flux dialysis). Blood Purif 1990; 8: 23–31.

Haag-Weber

, Mai

, Deppish

, Gohl

, Horl

W.H.

. Studies of biocompatibility of different dialyzer membranes: role of complement system, intracellular calcium and inositol-triphosphate. Clin Nephrol 1994; 41: 245–51.

Hampl

, Paeprer

, Unger

, Kessel

M.W.

. Hemodynamics during hemodialysis, sequential ultrafiltration and hemofiltration. J Dial 1979; 3: 51–5.

Shaldon

, Deshodt

, Beau

M.C.

, Claret

, Mion

. Vascular stability during high flux hemofiltration (HF). Proc EDTA 1979; 16: 695–7.

Goldfarb

, Golper

T.A.

. Proinflammatory cytokines and hemofiltration membranes. JASN 1994; 5: 228–32.

Bergstrom

, Wehle

. No change in corrected beta 2-microglobulin concentration after cuprophane hemodialysis. Lancet 1987; i: 628–9 (letter).

Panichi

, Casarosa

, Bianchi

A.M.

, Gattai

, Cirami

, Palla

. Protein layer on hemodialysis membranes: a new immunohistochemical method. Int J Artif Organs 1995; 18: 305–8.

10.

Mahiout

, Meinhold

, Kessel

, Schulz

, Baurmeister

. Dialyzer membranes: effect of surface area and chemical modification of cellulose on complement and platelet activation. Int J Artif Organs 1987; 11: 149–54.

11.

Chanard

, Brunois

J.P.

, Melin

J.P.

, Lavaud

, Toupance

. Long-term results of dialysis therapy with a highly permeable membrane. Int J Artif Organs 1982: 6: 262–6.

12.

Horneberg

J.C.

, Chernew

, Petersen

, Garber

A.M.

. A multivariate analysis of mortality and hospital admission with high-flux dialysis. J Am Soc Nephrol 1992; 3: 1227–37.

13.

Hakim

R.M.

, Wingard

R.L.

, Parker

R.A.

. Effect of the dialysis membrane in the treatment of patients with acute renal failure. N Eng J Med 1994; 331: 1338–42.

14.

Horl

W.H.

, Schaefer

R.M.

, Heiland

. Effect of different dialyzer on proteinase and proteinaseinhibitors during hemodialysis. Am J Nephrol 1985: 7: 320–6.

15.

Koch

. Dialysis-associated amyloidosis. Kidney Int 1992; 41: 1416–29.

16.

Waldmann

T.A.

. The multi-chain interleukin-2 receptor. JAMA 1990; 5: 320–6.

17.

Hory

, Racadot

, Saint- Hilier

, Peters

, Perol

. Soluble interleukin-2 receptor in chronic renal failure. Am J Nephrol 1991; 11: 276–80.

18.

Kolmos

H.J.

. Hygienic problems in hemodialysis. Dan Med Bull 1985; 32: 338–61.

19.

Dinarello

C.A.

, Lonneman

, Maxwell

, Shaldon

. Ultrafiltration to reject human interleukin 1-inducing substances derived from bacterial cultures. J Clin Microbiol 1987; 25: 1233–8.

20.

Shindler

, Dinarello

C.A.

. A method for removing interleukin 1 and tumor necrosis factor inducing substances from bacterial cultures by ultrafiltration with polysulfone. J Immunol Meth 1989; 159–65.

21.

Lonemann

, Beheme

T.C.

, Lenzer

Permeability of dialyzer membranes to TNF alpha-inducing substances derived from water bacteria. Kidney Int 1992; 42: 61–8.

22.

Kuwahara

, Market

, Wauters

P.J.

. Protein adsorbed on hemodialysis membranes modulate neuthrophil activation. Artif Organs 1989; 5: 427–31.

23.

Henderson

L.W.

, Chenoweth

. Biocompatibility of artificial organs: an overview. Blood Purif 1987; 5: 100–11.

Biocompatibility Evaluation of Polyamide Hemofiltration

Abstract

Introduction

Patients and methods

Results

Discussion and Conclusion

Keywords

Get full access to this article

References