Vincenzo D’Intini scite author profile

Background/Aim: Substances in the middle molecular weight range have been shown to play a significant pathogenetic role in as diverse disorders as end-stage renal disease and multiple organ failure. To overcome the limitations in the amount removed by hemofilters, new sorbents with a high biocompatibility are actively being developed. Furthermore, biocompatible sorbents by their nonspecific adsorptive behavior could have great impact on detoxification treatment in exogenous intoxications. We performed an in vitro evaluation of a newly developed highly biocompatible sorbent cartridge (Betasorb^®), examining its adsorptive capacity concerning therapeutic drugs. Methods: Uremic blood spiked with a range of therapeutic drugs was recirculated for 2 h in an in vitro hemoperfusion circuit containing a Betasorb device for hemoperfusion. The drug concentrations before and after the passage of the cartridge were measured, and the total amount removed was calculated. Results: The sorbent showed effective removal of glycopeptide antibiotics, digoxin, theophylline, phenobarbital, phenytoin, carbamazepine, and valproic acid. Moderate removal could be demonstrated for tacrolimus and cyclosporine A; aminoglycosides were removed to a small extent only. Conclusions: Betasorb hemoperfusion shows a potent adsorptive capacity concerning therapeutic drugs (except aminoglycosides) and could be of major value in the treatment of intoxications. On the other hand, drug monitoring and possible adjustments are necessary during Betasorb hemoperfusion to maintain the therapeutic ranges of the drugs in blood.

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Extracorporeal Therapies in Non-Renal Disease: Treatment of Sepsis and the Peak Concentration Hypothesis

Ronco

et al. 2004

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In the setting of intensive care, patients with acute renal failure often present a clinical picture of the systemic inflammatory response syndrome (SIRS). SIRS can be caused by bacterial stimuli or by non-microbiological stimuli that induce a significant inflammatory response. When this response is exaggerated, the patient experiences multiple organ system failure and a condition of sepsis also defined as a systemic malignant inflammation. This is mostly characterized by an invasion of cytokines and other pro-inflammatory mediators into the systemic circulation where major biological effects take place, including vasopermeabilization, hypotension and shock. At the same time, the monocyte of the septic patient seems to be hyporesponsive to inflammatory stimuli to a certain extent. In this condition, the patient faces a situation of hyperinflammation but at the same time of immunodepression expressing a clinical entity defined as counter anti-inflammatory response syndrome. The general picture of the clinical disorder is therefore better characterized by an immunodysregulation than by a simple pro- or anti-inflammatory disorder. Due to the short half-life of cytokines and other mediators spilled over into the circulation, it is extremely difficult to approach the problem at the right moment with the right pharmacological agent. For these reasons, the peak concentration hypothesis suggests that continuous renal replacement therapies, due to their continuity and unspecific capacity of removal, might be beneficial in cutting the peaks of the concentrations of both pro- and anti-inflammatory mediators, restoring a situation of immunohomeostasis. Thus the patient may benefit from a lesser degree of immunodysregulation and he/she may restore a close-to-normal capacity of response to exogenous stimuli.

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Coupled Plasma Filtration Adsorption: Rationale, Technical Development and Early Clinical Experience

et al. 2003

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The adjuvant treatment of sepsis remains a major therapeutic challenge. Blood purification is theoretically appealing if the humoral theory of sepsis is accepted as the basis for intervention. In this setting, blood purification would provide a broad-based restoration of humoral homeostasis thereby avoiding both excessive inflammation and counterinflammation. Several techniques of blood purification have been tried or are under active investigation. One of these is the so-called coupled plasma filtration adsorption (CPFA). CPFA is a novel extracorporeal blood purification therapy aimed at nonselectively reducing the circulating levels and activities of both pro- and anti-inflammatory mediators during sepsis and multiorgan failure. In vitro studies have shown CPFA to be effective in binding a broad range of such mediators proving its technical efficacy. Subsequent animal models have shown a beneficial effect on survival in endotoxemia. These studies have provided the necessary technical developments and biologic rationale for initial human studies. Two phase I/IIa clinical studies have now been performed. Both studies have shown that CPFA improves blood pressure and restores immune function in patients with severe sepsis and multiorgan dysfunction. In this article, we will discuss some of the basic principles involved in sorbent technology, and how these may contribute to treatment efficacy, review animal experiments with CPFA and finally discuss the results of recent human studies and their implications.

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Mononuclear leukocyte apoptosis in haemodialysis patients: the role of cell thiols and vitamin E

Galli

Ghibelli²,

Buoncristiani³

et al. 2003

Nephrology Dialysis Transplantation

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