Prolonged exposure to glucose degradation products impairs viability and function of human peritoneal mesothelial cells.

Bioincompatibility of peritoneal dialysis fluids (PDF) has been linked to the presence of glucose degradation products (GDP). Previous experiments have shown that short-term exposure to several GDP at concentrations found in commercially available PDF had no significant effect on human peritoneal mesothelial cells (HPMC). During continuous ambulatory peritoneal dialysis, however, cells are continually exposed to GDP for extended periods of time.

Glucose degradation products and peritoneal membrane function.

Background: The bioincompatibility of peritoneal dialysis fluids (PDF) in current use has been partially attributed to the presence of glucose degradation products (GDPs), which are generated during heat sterilization of PDF. Several of the GDPs have been identified and we have recently demonstrated that these GDPs per se may impair the viability and function of human peritoneal mesothelial cells (HPMC) in vitro. It is also possible that GDP-related toxicity is further exacerbated by the milieu of PDF.

Synthesis of C-X-C and C-C chemokines by human peritoneal fibroblasts: induction by macrophage-derived cytokines.

Leukocyte accumulation during peritonitis is believed to be controlled by chemotactic factors released by resident peritoneal macrophages or mesothelial cells. Recent data indicate, however, that in many tissues fibroblasts play a key role in mediating leukocyte recruitment. We have therefore examined human peritoneal fibroblasts (HPFBs) for the expression and regulation of C-X-C and C-C chemokines.

IL-17 stimulates intraperitoneal neutrophil infiltration through the release of GRO alpha chemokine from mesothelial cells.

IL-17 is a newly discovered cytokine implicated in the regulation of hemopoiesis and inflammation. Because IL-17 production is restricted to activated T lymphocytes, the effects exerted by IL-17 may help one to understand the contribution of T cells to the inflammatory response. We investigated the role of IL-17 in leukocyte recruitment into the peritoneal cavity.

Nightly intermittent peritoneal dialysis: targets and prescriptions.

Adequate peritoneal dialysis can be achieved in most ESRD patients, provided that the prescription is individualized according to body surface area, body weight, residual renal function, and peritoneal transport characteristics. NIPD is particularly indicated in patients with significant residual renal function or those with a high-transport peritoneal membrane (accounting for about 10% of the PD patient population). "Dry day" NIPD reduces small-solute clearance by at least 10%-15% and middle-molecule clearance by almost 50%.

Effect of glucose degradation products on human peritoneal mesothelial cell function.

Bioincompatibility of conventional glucose-based peritoneal dialysis fluids (PDF) has been partially attributed to the presence of glucose degradation products (GDP) generated during heat sterilization of PDF. Most previous studies on GDP toxicity were performed on animal and/or transformed cell lines, and the impact of GDP on peritoneal cells remains obscure. The short-term effects of six identified GDP on human peritoneal mesothelial cell (HPMC) functions were examined in comparison to murine L929 fibroblasts.

Haemodialysis-membrane biocompatibility and mortality of patients with dialysis-dependent acute renal failure: a prospective randomised multicentre trial. International Multicentre Study Group.

Background: There is controversy as to whether haemodialysis-membrane biocompatibility (ie, the potential to activate complement and neutrophils) influences mortality of patients with acute renal failure. We did a prospective randomised multicentre trial in patients with dialysis-dependent acute renal failure treated with two different types of low-flux membrane.

Methods: 180 patients with acute renal failure were randomly assigned bioincompatible Cuprophan (n=90) or polymethyl-methacrylate (n=90) membranes.

Biocompatibility and buffers: effect of bicarbonate-buffered peritoneal dialysis fluids on peritoneal cell function.

Background: Conventional peritoneal dialysis fluids (PDF) have been shown to compromise the function of both leukocytes and human peritoneal mesothelial cells (HPMC). Various in vitro studies have identified the low initial pH in combination with high lactate content, as well as the hyperosmolality and high glucose concentration present in currently used solutions as the primary determinants of their bioincompatibility. Bicarbonate buffered PDF (at neutral pH) display improved in vitro biocompatibility as compared to conventional, lactate buffered PDF.

In vitro biocompatibility evaluation of a novel bicarbonate-buffered amino-acid solution for peritoneal dialysis.

Background: Conventional lactate-buffered peritoneal dialysis fluids containing glucose as the osmotic agent have been shown to compromise important peritoneal host defence functions. The current study employed an in vitro model using activated peripheral blood mononuclear leukocytes (PBMC) for the preclinical biocompatibility assessment of a novel bicarbonate-buffered peritoneal dialysis fluid containing 1.0% amino acids as the osmotic agent.

Inhibition of tumour necrosis factor production in endotoxin-stimulated human mononuclear leukocytes by the prostacyclin analogue iloprost: cellular mechanisms.

The prostacyclin analogue iloprost has been shown to inhibit effectively TNF-alpha production in human peripheral blood mononuclear leukocytes (PBMC) stimulated with bacterial lipopolysaccharide (LPS). The current paper set out to analyse further the possible mechanisms involved in the regulation of TNF-alpha synthesis by iloprost. Healthy human PBMC were challenged with Escherichia coli LPS and assessed for TNF-alpha gene transcription, mRNA stability and protein secretion.

Establishment and functional characterization of human peritoneal fibroblasts in culture: regulation of interleukin-6 production by proinflammatory cytokines.

The functional and morphologic integrity of the peritoneal membrane is of major importance for the successful treatment of patients with chronic peritoneal dialysis. This study aimed at the establishment and functional characterization of human peritoneal fibroblasts (HPFB) in cell culture. HPFB were isolated from human omentum by enzymatic digestion and cultured.

Longitudinal evaluation of peritoneal macrophage function and activation during CAPD: maturity, cytokine synthesis and arachidonic acid metabolism.

The release of cytokines and prostaglandins (PG) by peritoneal macrophages (PM luminal diameter of) may influence the cytokine network controlling peritoneal inflammation and in the long-term the function of the peritoneum as a dialysis membrane. In the present study, an evaluation of the long-term effects of peritoneal dialysis on the release of cytokines and prostaglandins, and the expression of surface markers of cellular maturation on blood and mononuclear cells has been performed in patients during their first year on CAPD. Spontaneous release of tumour necrosis factor alpha (TNF alpha) and interleukins 6 (IL-6) by PM luminal diameter of, after 4 or 24 hours in culture, increased significantly with time on CAPD, while there was a small but significant decrease in release of prostaglandin E2 (PGE2).

In vitro studies on the effect of dialysis solutions on peritoneal leukocytes.

Within the limitations of the various experimental protocols there appears to be agreement in the literature that unused dialysis fluids, at least when studied in vitro, adversely affect multiple leukocyte functions. The effects of dialysis fluids on leukocytes that have been reported to date include: 1. Decreased cell viability of PMNs, PM phis, PBMCs, and lymphocytes; 2.

Urinary excretion of thromboxane and markers for renal injury in patients undergoing cardiopulmonary bypass.

Urinary excretion of selected markers for renal injury, as well as urinary excretion rates of the thromboxane metabolite, 11-keto-thromboxane B2 (11k-TXB2), was studied in 36 male patients undergoing coronary bypass surgery using cardiopulmonary bypass (CPB). In all patients, excretion of both tubular (N-acetyl-beta-D-glucosaminidase [beta NAG]; alpha 1-microglobulin [alpha 1-MG]) and glomerular markers (albumin [Alb]; transferrin [Trf]; immunoglobulin G [IgG]) sharply increased on Day 1 after CPB, and they remained elevated throughout the observation period of 5 days. Urinary excretion rates of 11k-TXB2 markedly increased on Day 1 after surgery, and they rapidly decreased thereafter.

[Initial experiences with combined balloon angioplasty and rtPA thrombolysis in dialysis shunt failure].

The 23 interventions performed by us on 18 patients had a very high success rate both in intraarterial lysis therapy of obstructed haemodialysis shunts and in balloon angioplasty (19/23). Shunt failure had to be primarily treated by surgery in 3 cases only. The complications were confined to a rupture of a vessel that required surgical care.

In-vitro biocompatibility of alternative CAPD fluids; comparison of bicarbonate-buffered and glucose-polymer-based solutions.

Evidence is accumulating that conventional dialysis fluids for CAPD are incompatible with peritoneal host defence. We therefore investigated the effect of alternative CAPD fluids on mononuclear leukocyte (PBMC) viability and cytokine production in vitro. Fluids tested were bicarbonate-buffered solutions containing 1.

Side effects of hybrid liver support therapy: TNF-alpha liberation in pigs, associated with extracorporeal bioreactors.

During acute liver failure, hybrid liver support therapy could serve as a bridge to liver transplantation. In this desired temporary use, immune competent cell responses, such as the production of cytokines, might be of limiting relevance. We have investigated the Tumor Necrosis Factor-alpha (TNF) liberation in two models using pigs, connected with an extracorporeal bioreactor with homologous hepatocytes: TNF liberation was measured in arterial plasma during a 4 day perfusion time in untreated animals, model (i), and during short term perfusion of hepatectomized pigs in model (ii).

Peritoneal dialysis fluid inhibition of phagocyte function: effects of osmolality and glucose concentration.

Solutions were formulated to examine, independently, the roles of osmolality and glucose in the reduction of viability and inhibition of phagocyte function by dextrose-containing peritoneal dialysis fluids. The exposure of neutrophils (polymorphonuclear leukocytes) to test fluids containing > or = 2.7% (wt/vol) glucose resulted in significant cytotoxicity as assessed by the release of lactate dehydrogenase above control values (7.

Impact of peritoneal dialysis solutions on peritoneal immune defense.

In summary, conventional CAPD fluids may interfere with most pathways of the intraperitoneal network of cytokines (Figure 4), potentially resulting in an impairment of important host defense functions. Thus alternative approaches are needed in order to improve dialysis fluid biocompatibility. Initial results indicate that pH neutralization and a restriction to moderate osmolality might constitute important determinants of modern dialysis fluid technology; however, clinical studies will have to prove that these fluids indeed improve the clinical outcome of the patients on long-term CAPD therapy.