Andreja Marn-Pernat scite author profile

Because of increasing awareness of the potential neurotoxicity of even low levels of organomercury compounds, analytical techniques are required for determination of low concentrations of ethylmercury (EtHg) and methylmercury (MeHg) in biological samples. An accurate and sensitive method has been developed for simultaneous determination of methylmercury and ethylmercury in vaccines and biological samples. MeHg and EtHg were isolated by acid leaching (H2SO4-KBr-CuSO4), extraction of MeHg and EtHg bromides into an organic solvent (CH2Cl2), then back-extraction into Milli-Q water. MeHg and EtHg bromides were derivatized with sodium tetrapropylborate (NaBPr4), collected at room temperature on Tenax, separated by isothermal gas chromatography (GC), pyrolysed, and detected by cold-vapour atomic fluorescence spectrometry (CV AFS). The repeatability of results from the method was approximately 5-10% for EtHg and 5-15% for MeHg. Detection limits achieved were 0.01 ng g-1 for EtHg and MeHg in blood, saliva, and vaccines and 5 ng g-1 for EtHg and MeHg in hair. The method presented has been shown to be suitable for determination of background levels of these contaminants in biological samples and can be used in studies related to the health effects of mercury and its species in man. This work illustrates the possibility of using hair and blood as potential biomarkers of exposure to thiomersal.

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Treatment of Hyperlipidemic Acute Pancreatitis With Plasma Exchange: A Single‐Center Experience

Gubenšek

Buturović‐Ponikvar

Marn-Pernat

et al. 2009

Ther Apher Dial

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Of the cases of acute pancreatitis, 1-7% are caused by severe hypertriglyceridemia and can be treated with plasma exchange (PE). We report on a large series of patients with acute hyperlipidemic pancreatitis (HLP) treated with PE. In the 1992-2008 period, 50 patients (45 +/- 8 years old, 92% male) with acute HLP were treated with PE, during which 1-2 plasma volumes were exchanged. Heparin was used as anticoagulant in 85% of the procedures, and citrate in the rest. Cholesterol and triglycerides were measured before and after PE. In the 2003-2008 cohort of 40 patients, we retrospectively recorded an Acute Physiology and Chronic Health Evaluation II (APACHE II) score at the first PE session, hospital mortality, and length of hospital stay. A total of 79 PE treatments were done, 1-5 per patient. The volume exchanged was 4890 +/- 1300 mL over a duration of 3.5 +/- 2 h. During the first PE, the triglycerides were lowered from 58.9 +/- 40.8 to 10.8 +/- 10.8 mmol/L, and the total cholesterol was lowered from 20.0 +/- 7.6 to 5.7 +/- 4.3 mmol/L. In 10% of the procedures the plasmafilter was replaced, and in 3% the filter was clotted. Hypotension occurred in 3% of PE and there was one case of gastrointestinal bleeding after PE with heparin anticoagulation. In the 2003-2008 cohort, the median APACHE II score was 5 (range 0-15), the median overall hospital stay was 18 days (range 3-142 days) and the hospital mortality was 15%. To conclude, in acute hyperlipidemic pancreatitis, one to two plasma exchanges effectively reduce the serum triglyceride level. There is a low rate of procedure-related complications. A mortality rate of 15% is considerable.

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Long‐Term Citrate Anticoagulation in Chronic Hemodialysis Patients

et al. 2011

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In some cases, long-term (>3 months) citrate anticoagulation is needed in maintenance hemodialysis patients due to a persistent bleeding risk. In this retrospective observational study, we present our experience and assess its safety and effects on mineral and bone disorder parameters. Sixteen patients (mean age 67 ± 15 years) were treated with long-term citrate anticoagulation. The indications were: recurrent gastrointestinal bleeding in nine patients, heparin-induced thrombocytopenia, retroperitoneal hematoma, chronic subdural hematoma, proliferative diabetic retinopathy, vascular malformations in the brain in one patient, and others in two patients. Metabolic complications and intact parathyroid hormone (iPTH) were analyzed. Citrate anticoagulation was performed for 4 months to 6.3 years (median 12 months). Ionized calcium was stable during the procedures; hypocalcemia (<0.9 mmol/L) was rare (2.1% of procedures), and there was one case of severe symptomatic hypocalcemia. There were no clinically significant acid-base disturbances and no clotting problems. In the short term (1-3 months after starting citrate), the iPTH increased in 73% of patients (from 325 ± 310 to 591 ± 793 pg/L, P = 0.11, N = 11). In the long term (1-2 years), an increase in iPTH was observed in 3/6 patients. The time period (before/after starting citrate) was a significant predictor of iPTH using main-effects anova (P < 0.001). To conclude, long-term citrate anticoagulation in chronic hemodialysis patients is safe. Mild hypocalcemia during dialysis with citrate anticoagulation may contribute to a short- and long-term increase in iPTH in these patients. Further studies on long-term citrate anticoagulation are necessary.

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