Supported liquid membrane extraction coupled in-line to commercial capillary electrophoresis for rapid determination of formate in undiluted blood samples

•Sample pretreatment is in-line coupled to commercial CE for automated operation.•Samples are extracted using disposable devices with supported liquid membranes.•Formate is determined in undiluted whole blood and serum using CE-UV detection.•Total analysis time including blood sampling, extraction a...

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Bibliographic Details
Published in:Journal of Chromatography A 2013-07, Vol.1299, p.33-39
Main Authors: PANTUCKOVA, Pavla, KUBAN, Pavel, BOCEK, Petr
Format: Article
Language:English
Subjects:
anions
Biological and medical sciences
Blood samples
blood serum
Capillary electrophoresis
Chemical and industrial products toxicology. Toxic occupational diseases
chromatography
detection limit
Formate
In-line sample pretreatment
instrumentation
liquid membranes
Medical sciences
methanol
Methanol intoxication
patients
poisoning
Solvents
Supported liquid membranes
Toxicology
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Summary:•Sample pretreatment is in-line coupled to commercial CE for automated operation.•Samples are extracted using disposable devices with supported liquid membranes.•Formate is determined in undiluted whole blood and serum using CE-UV detection.•Total analysis time including blood sampling, extraction and analysis is less than 4min.•The method might be used for clinical analyses of formate after methanol intoxication. A cheap, disposable sample pretreatment device with planar supported liquid membrane (SLM) was proposed, assembled and placed into an autosampler carousel of a commercial capillary electrophoresis (CE) instrument for automated pretreatment and analysis of formate in undiluted whole blood and serum samples. All analytical procedures except for filling the pretreatment device with donor and acceptor solutions, i.e., extraction across SLM, injection of the extracted sample and CE-UV determination of formate, were performed fully automatically. The pretreatment device required only μL volumes of blood sample and organic solvent per extraction and was disposed off after each extraction. Good repeatability of peak areas (≤7.7%) and migration times (≤1.5%), linear relationship (r2=0.998–0.999) and limits of detection (≤35μM) were achieved. The overall analytical process including blood withdrawal, filling the SLM device with respective solutions, extraction of blood sample, injection into separation capillary and CE separation of formate from other anions took less than 4min. The method was proved useful by direct determination of elevated formate concentrations in undiluted serum samples of a methanol intoxicated patient. Due to its compatibility with currently commercially available CE instrumentation, disposability of extraction devices, minimum sample handling/consumption, and short extraction/analysis times, the developed method might be attractive for rapid diagnosis of methanol poisoning in clinical and toxicological laboratories.
ISSN:0021-9673
DOI:10.1016/j.chroma.2013.05.058