Karin Strobl scite author profile

Background: Citrate anticoagulation offers several advantages in comparison to conventional anticoagulation. Most algorithms for regional citrate-calcium anticoagulation are based on citrate and calcium chloride infusion coupled in a fixed proportion to the blood flow without considering the hematocrit (Hct)/plasma flow or the filter clearance of citrate and calcium. Methods: The aim of this study was to develop an algorithm for optimized citrate anticoagulation in extracorporeal therapies such as dialysis. A mathematical model was developed to calculate the volume of citrate infusion required to achieve a desired ionized calcium (iCa) target level in the extracorporeal circuit and to restore the total calcium level to a physiological value. Results: The model was validated by correlation analyses for different blood Hct values and shows an excellent fit to the laboratory measurements. Conclusion: The results for both iCa target concentrations, namely those after citrate and calcium infusion, proved that the software algorithm adapts well to variable treatment parameters.

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An in vitro study on factors affecting endotoxin neutralization in human plasma using the Limulus amebocyte lysate test

Harm

Schildböck

Strobl

et al. 2021

Sci Rep

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Endotoxin neutralization, caused by plasma components, makes it difficult to detect endotoxins in human blood. In this study, we investigated which factors influence the recovery of endotoxins using limulus ameobocyte lysate (LAL)-based assays. The individual factors that were examined in more detail were lipoprotein content, type of blood anticoagulation, kinetics and serum levels of divalent cations. Furthermore, it was investigated whether there is a direct correlation between LAL activity and monocyte activation. We could show that polyanionic heparin increases endotoxin recovery in blood, while citrate anticoagulation promotes endotoxin neutralization. Furthermore, we could show that the endotoxin activity in human plasma and serum decreases strongly over time. Time-dependent endotoxin neutralization reaches its maximum after 4–6 h incubation. By means of filtration tests we could determine that endotoxins in the plasma bind to lipoproteins but do not influence their activity. Comparative measurements have shown that high LAL activity of endotoxins in plasma simultaneously possesses high monocyte activating properties in whole blood. For the maximum recovery of endotoxins in human blood the physiological calcium and magnesium concentrations are sufficient. In this study, it was shown that the endotoxin neutralizing plasma components have a molecular weight similar to β2-microglobulin (11.7 kDa). For the exact identification of the endotoxin neutralizing plasma components, which caused a modulation of the immunostimulating endotoxin activity, further investigations have to be carried out in the future.

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In Vitro Investigations of Citrate Clearance with Different Dialysis Filters

et al. 2012

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A Target-Oriented Algorithm for Citrate-Calcium Anticoagulation in Clinical Practice

Strobl¹,

Hartmann²,

Wallner³

et al. 2013

Blood Purif

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Background/Aims: Because of a high monitoring demand and an ensuing need for automation of regional citrate anticoagulation (RCA), a new semi-automated target-oriented algorithm was developed. The aim of this study was the evaluation of its functionality and safety. Methods: Fourteen haemodialysis patients were treated 5 times consecutively with RCA. Samples were drawn pre- and post-infusion once per hour. Electrolytes, blood cell counts, acid-base and coagulation parameters were analyzed. Results: Mean ionized calcium (Ca²⁺) values pre-filter were 0.23 and 0.33 mmol/l in the 0.2 and 0.3 mmol/l target groups, respectively. Extraction ratios for citrate and total calcium through the dialysis filter were constant during the entire treatment (83 and 68%, respectively). Citrate accumulation was avoided. Conclusion: The new algorithm enables safe and accurate RCA. By regulating Ca²⁺ pre-filter using the target-oriented algorithm, the degree of anticoagulation may be easily controlled.

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Influence of citrate concentration on the activation of blood cells in an in vitro dialysis setup

et al. 2018

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BackgroundRegional citrate anticoagulation has been associated with enhanced biocompatibility in hemodialysis, but the optimal dose of citrate remains to be established. Here, we compared parameters related to cellular activation during in vitro dialysis, using two doses of citrate.MethodsHuman whole blood, anticoagulated with either 3 mM or 4 mM of citrate, was recirculated in an in vitro miniaturized dialysis setup. Complement (C3a-desArg), soluble platelet factor 4 (PF4), thromboxane B2 (TXB2), myeloperoxidase (MPO), as well as platelet- and red blood cell-derived extracellular vesicles (EV) were quantified during recirculation. Dialyzer fibers were examined by scanning electron microscopy after recirculation to assess the activation of clotting and the deposition of blood cells.ResultsIncreases in markers of platelet and leukocyte activation, PF4, TXB2, and MPO were comparable between both citrate groups. Complement activation tended to be lower at higher citrate concentration, but the difference between the two citrate groups did not reach significance. A strong increase in EVs, particularly platelet-derived EVs, was observed during in vitro dialysis for both citrate groups, which was significantly less pronounced in the high citrate group at the end of the experiment. Assessment of dialyzer clotting scores after analysis of individual fibers by scanning electron microscopy revealed significantly lower scores in the high citrate group.ConclusionsOur data indicate that an increase in the citrate concentration from 3 mM to 4 mM further dampens cellular activation, thereby improving biocompatibility. A concentration of 4 mM citrate might therefore be optimal for use in clinical practice.

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Karin Strobl

A Target-Orientated Algorithm for Regional Citrate-Calcium Anticoagulation in Extracorporeal Therapies

An in vitro study on factors affecting endotoxin neutralization in human plasma using the Limulus amebocyte lysate test

In Vitro Investigations of Citrate Clearance with Different Dialysis Filters

A Target-Oriented Algorithm for Citrate-Calcium Anticoagulation in Clinical Practice

Influence of citrate concentration on the activation of blood cells in an in vitro dialysis setup

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