[en] Objective: To confirm in vivo the hypothesis that hemofiltration with a large pore membrane can achieve significant cytokine clearance. Method: We used a well-known animal model of endotoxinic shock (0.5 mg/kg of lipopolysaccharide from Escherichia Coli over a period of 30 mins). Six pigs were hemofiltrated for 3 hours with a large pore membrane (78 angstrom pore, 80 kDa cut off) (Sureflux FH 70, Nipro, Osaka, Japan). The ultrafiltration rate was 45 ml/kg/min. Samples were taken from arterial, venous line and in the ultrafiltrate at T120 and T240. We measured concentrations of interleukin 6, interleukin 10 and albumin. Results: At T120 and T240, the IL-6 clearances were 22 +/- 7 and 15 +/- 3 ml/min, respectively. The IL-6 sieving coefficients were 0.97 and 0.7 at T120 and T240, respectively. At T120 and T240, the IL-10 clearances were 14 +/- 4 and 10 +/- 7 ml/min, respectively. The sieving coefficients were 0.63 and 0.45 at T120 and T240, respectively. The concentrations of IL-6 and IL-10 were the same at T0 and T240. At T60 and T240, the plasmatic albumin concentrations were 24 +/- 4 g/L and 23 +/- 4 g/L, respectively ( p = 0.13). Conclusions: In this animal model of endotoxinic shock, we confirm the high cytokine clearance observed when hemofiltration is applied to a large pore membrane. The loss of albumin seems negligible. The impact of such clearances on hemodynamic stability and survival remains to be proved.
Disciplines :
Laboratory medicine & medical technology
Author, co-author :
Delanaye, Pierre ; Centre Hospitalier Universitaire de Liège - CHU > Néphrologie
Lambermont, Bernard ; Centre Hospitalier Universitaire de Liège - CHU > Frais communs médecine
Dogné, Jean-Michel ; Université de Liège - ULiège > Département de pharmacie > Département de pharmacie
Dubois, Bernard ; Centre Hospitalier Universitaire de Liège - CHU > Néphrologie
Ghuysen, Alexandre ; Université de Liège - ULiège > Département des sciences de la santé publique > Réanimation - Urgence extrahospitalière
Janssen, Nathalie ; Centre Hospitalier Universitaire de Liège - CHU > Urgences
Desaive, Thomas ; Université de Liège - ULiège > Département d'astrophys., géophysique et océanographie (AGO) > Thermodynamique des phénomènes irréversibles
Kolh, Philippe ; Université de Liège - ULiège > Département des Sciences biomédicales et précliniques > Service de Biochimie et Physiologie
D'Orio, Vincenzo ; Université de Liège - ULiège > Département des sciences cliniques > Médecine d'urgence - bioch. et phys. hum. normales et path.
Krzesinski, Jean-Marie ; Université de Liège - ULiège > Département des sciences cliniques > Néphrologie
Language :
English
Title :
Confirmation of high cytokine clearance by hemofiltration with a cellulose triacetate membrane with large pores: an in vivo study
scite shows how a scientific paper has been cited by providing the context of the citation, a classification describing whether it supports, mentions, or contrasts the cited claim, and a label indicating in which section the citation was made.
Bibliography
Friedman G, Silva E, Vincent JL. Has the mortality of septic shock changed with time. Crit Care Med 1998; 26: 2078-86.
Parrillo JE. Pathogenetic mechanisms of septic shock. N Engl J Med 1993; 328: 1471-7.
Simmons EM, Himmelfarb J, Sezer MT, et al. Plasma cytokine levels predict mortality in patients with acute renal failure. Kidney Int 2004; 65: 1357-65.
Journois D, Israel-Biet D, Pouard P, et al. High-volume, zero-balanced hemofiltration to reduce delayed inflammatory response to cardiopulmonary bypass in children. Anesthesiology 1996; 85: 965-76.
Groeneveld AB. Septic shock and multiple organ failure: treatment with haemofiltration? Intensive Care Med 1990; 16: 489-90.
Ronco G, Tetta C, Mariano F, et al. Interpreting the mechanisms of continuous renal replacement therapy in sepsis: the peak concentration hypothesis. Artif Organs 2003; 27: 792-801.
De Vriese AS, Colardyn FA, Philippe JJ, Vanholder RC, De Sutter JH, Lameire NH. Cytokine removal during continuous hemofiltration in septic patients. J Am Soc Nephrol 1999; 10: 846-53.
Heering P, Morgera S, Schmitz FJ, et al. Cytokine removal and cardiovascular hemodynamics in septic patients with continuous venovenous hemofiltration. Intensive Care Med 1997; 23: 288-96.
Kellum JA, Johnson JP, Kramer D, Palevsky P, Brady JJ, Pinsky MR. Diffusive vs. convective therapy: effects on mediators of inflammation in patient with severe systemic inflammatory response syndrome. Crit Care Med 1998; 26: 1995-2000.
Sander A, Armbruster W, Sander B, Daul AE, Lange R, Peters J. Hemofiltration increases IL-6 clearance in early systemic inflammatory response syndrome but does not alter IL-6 and TNF alpha plasma concentrations. Intensive Care Med 1997; 23: 878-84.
Pathan N, Hemingway CA, Alizadeh AA, et al. Role of interleukin 6 in myocardial dysfunction of meningococcal septic shock. Lancet 2004; 363: 203-9.
Marchant A, Deviere J, Byl B, De Groote D, Vincent JL, Goldman M. Interleukin-10 production during septicaemia. Lancet 1994; 343: 707-8.
Uchino S, Bellomo R, Goldsmith D, et al. Super high flux hemofiltration: a new technique for cytokine removal. Intensive Care Med 2002; 28: 651-5.
Morgera S, Haase M, Rocktaschel J, et al. High permeability haemofiltration improves peripheral blood mononuclear cell proliferation in septic patients with acute renal failure. Nephrol Dial Transplant 2003; 18: 2570-6.
Gohl H, Buck R, Strathmann H. Basic features of the polyamide membranes. Contrib Nephrol 1992; 96: 1-25.
Morgera S, Klonower D, Rocktaschel, J et al. TNF-alpha elimination with high cut-off haemofilters: a feasible clinical modality for septic patients? Nephrol Dial Transplant 2003; 18: 1361-9.
Uchino S, Bellomo R, Goldsmith D, et al. Cytokine removal with a large pore cellulose triacetate filter: an ex vivo study. Int J Artif Organs 2002; 25: 27-32.
Lambermont B, Kolh P, Detry O, Gerard P, Marcelle R, D'Orio V. Analysis of endotoxin effects on the intact pulmonary circulation. Cardiovasc Res 1999; 41: 275-81.
Webb LM, Ehrengruber MU, Clark-Lewis I, Baggiolini M, Rot A. Binding to heparan sulfate or heparin enhances neutrophil responses to interleukin 8. Proc Natl Acad Sci U S A 1993; 90: 7158-62.
Morgera S, Slowinski T, Melzer C, et al. Renal replacement therapy with high-cutoff hemofilters: Impact of convection and diffusion on cytokine clearances and protein status. Am J Kidney Dis 2004; 43: 444-53.
Lee WC, Uchino S, Fealy N, et al. Super high flux hemodialysis at high dialysate flows: an ex vivo assessment. Int J Artif Organs 2004; 27: 24-8.
Morgera S, Rocktaschel J, Haase M, et al. Intermittent high permeability hemofiltration in septic patients with acute renal failure. Intensive Care Med 2003; 29: 1989-95.
Mariano F, Fonsato V, Lanfranco G, et al. Tailoring high-cut-off membranes and feasible application in sepsis-associated acute renal failure: in vitro studies. Nephrol Dial Transplant 2005; 20: 1116-26.
Lonnemann G, Koch KM, Shaldon S, Dinarello CA. Studies on the ability of hemodialysis membranes to induce, bind, and clear human interleukin-1. J Lab Clin Med 1988; 112: 76-86.
Goldfarb S, Golper TA. Proinflammatory cytokines and hemofiltration membranes. J Am Soc Nephrol 1994; 5: 228-32.
Honore PM, Matson JR. Hemofiltration, adsorption, sieving and the challenge of sepsis therapy design. Crit Care 2002; 6: 394-6.
Wingfield P, Pain RH, Craig S. Tumour necrosis factor is a compact trimer. FEBS Lett 1987; 211: 179-84.
Di Carlo JV, Alexander SR. Hemofiltration for cytokine-driven illnesses: the mediator delivery hypothesis. Int J Artif Organs 2005; 28: 777-86.
Honore PM, Joannes-Boyau O. High volume hemofiltration (HVHF) in sepsis: a comprehensive review of rationale, clinical applicability, potential indications and recommendations for future research. Int J Artif Organs 2004; 27: 1077-82.
Lee PA, Weger GW, Pryor RW, Matson JR. Effects of filter pore size on efficacy of continuous arteriovenous hemofiltration therapy for Staphylococcus aureus-induced septicemia in immature swine. Crit Care Med 1998; 26: 730-7.
Similar publications
Sorry the service is unavailable at the moment. Please try again later.
This website uses cookies to improve user experience. Read more
Save & Close
Accept all
Decline all
Show detailsHide details
Cookie declaration
About cookies
Strictly necessary
Performance
Strictly necessary cookies allow core website functionality such as user login and account management. The website cannot be used properly without strictly necessary cookies.
This cookie is used by Cookie-Script.com service to remember visitor cookie consent preferences. It is necessary for Cookie-Script.com cookie banner to work properly.
Performance cookies are used to see how visitors use the website, eg. analytics cookies. Those cookies cannot be used to directly identify a certain visitor.
Used to store the attribution information, the referrer initially used to visit the website
Cookies are small text files that are placed on your computer by websites that you visit. Websites use cookies to help users navigate efficiently and perform certain functions. Cookies that are required for the website to operate properly are allowed to be set without your permission. All other cookies need to be approved before they can be set in the browser.
You can change your consent to cookie usage at any time on our Privacy Policy page.
