Rafal Kalitynski scite author profile

Aims The aim of this study was to define the relationship between unbound propofol concentrations in plasma and total drug concentrations in human cerebrospinal fluid (CSF), and to determine whether propofol exists in the CSF in bound form. Methods Forty-three patients (divided into three groups) scheduled for elective intracranial procedures and anaesthetized by propofol target control infusion (TCI) were studied. Blood and CSF samples (taken from the radial artery, and the intraventricular drainage, respectively) from group I (17 patients) were used to investigate the relationship between unbound propofol concentration in plasma and total concentration of the drug in CSF. CSF samples taken from group II (18 patients) were used to confirm the presence of the bound form of propofol in this fluid. The CSF and blood samples taken from group III (eight patients) were used to monitor the course of free and bound CSF propofol concentrations during anaesthesia. Results For group I patients the mean (and 95% confidence interval) total plasma propofol concentration was 6113 (4971, 7255) ng ml -1 , the mean free propofol concentration in plasma was 63 (42, 84) ng ml -1 , and the mean total propofol concentration in CSF was 96 (76, 116) ng ml -1 ( P < 0.05 for the difference between the last two values). For group II patients the fraction of free propofol in CSF was 31 (26, 37)%. For group III patients the fraction of free propofol in CSF during TCI was almost constant (about 36%). Conclusions The unbound propofol concentration in plasma was not equal to its total concentration in CSF and cannot be directly related to the drug concentration in the brain. Binding of propofol to components of the CSF may be an additional mechanism regulating the transport of the drug from blood into CSF.

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HPLC investigation of free and bound propofol in human plasma and cerebrospinal ﬂuid

Dawidowicz

Kalitynski

2003

Biomedical Chromatography

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The paper compares the total propofol concentration in the cerebrospinal fluid (CSF) with the free drug concentration in plasma measured in 35 humans scheduled for elective neurosurgical procedures during propofol anaesthesia. The concentrations of total and free propofol in the blood and CSF samples were measured by means of HPLC using liquid-liquid extraction and ultrafiltration in the sample preparation procedure. The arterial blood and CSF samples (collected from intraventricular drainage) were taken at the same time. According to the obtained results, the usually expected equality between free drug concentration in plasma and its total concentration in CSF is not valid for propofol: the unbound propofol concentration in plasma is not equal to its total concentration in CSF (p < 0.05). This difference suggests a substantial contribution of active transport in propofol transfer from blood into CSF. Moreover, the paper shows the presence of bound propofol in CSF, which is a novel finding.

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Influence of propofol concentration in human plasma on free fraction of the drug

Dawidowicz

Kalitynski

Kobielski

et al. 2006

Chemico-Biological Interactions

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Changes of Propofol Concentration in Cerebrospinal Fluid During Continuous Infusion

Dawidowicz¹,

Kalitynski²,

Nestorowicz³

et al. 2002

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Legionella bozemanae synthesizes phosphatidylcholine from exogenous choline

Palusińska-Szysz

Janczarek

Kalitynski

et al. 2011

Microbiological Research

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The phospholipid class and fatty acid composition of Legionella bozemanae were determined using thin-layer chromatography, gas-liquid chromatography, and matrix-assisted laser desorption ionization-time of flight mass spectrometry. Phosphatidylcholine, phosphatidylethanolamine, and diphosphatidylglycerol were the predominant phospholipids, while phosphatidyl-N-monomethylethanolamine, phosphatidylglycerol, and phosphatidyl-N,N-dimethylethanolamine were present at low concentrations. With the use of the LC/MS technique, PC16:0/15:0, PC17:/15:0, and PE16:1/15:0 were shown to be the dominant phospholipid constituents, which may be taxonomically significant. Two independent phosphatidylcholine synthesis pathways (the three-step methylation and the one-step CDP-choline pathway) were present and functional in L. bozemanae. In the genome of L. bozemanae, genes encoding two potential phosphatidylcholine forming enzymes, phospholipid N-methyl transferase (PmtA) and phosphatidylcholine synthase (Pcs), homologous to L. longbeachae, L. drancourtii, and L. pneumophila pmtA and pcs genes were identified. Genes pmtA and pcs from L. bozemanae were sequenced and analyzed on nucleotide and amino acid levels. Bacteria grown on an artificial medium with labelled choline synthesized phosphatidylcholine predominantly via the phosphatidylcholine synthase pathway, which indicates that L. bozemanae phosphatidylcholine, similarly as in other bacteria associated with eukaryotes, is an important determinant of host-microbe interactions.

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