Knaack_2012_Anal.Chem_84_10052

Reference

Title : High-Throughput Immunomagnetic Scavenging Technique for Quantitative Analysis of Live VX Nerve Agent in Water, Hamburger, and Soil Matrixes - Knaack_2012_Anal.Chem_84_10052
Author(s) : Knaack JS , Zhou Y , Abney CW , Prezioso SM , Magnuson M , Evans R , Jakubowski EM , Hardy K , Johnson RC
Ref : Analytical Chemistry , 84 :10052 , 2012
Abstract :

We have developed a novel immunomagnetic scavenging technique for extracting cholinesterase inhibitors from aqueous matrixes using biological targeting and antibody-based extraction. The technique was characterized using the organophosphorus nerve agent VX. The limit of detection for VX in high-performance liquid chromatography (HPLC)-grade water, defined as the lowest calibrator concentration, was 25 pg/mL in a small, 500 muL sample. The method was characterized over the course of 22 sample sets containing calibrators, blanks, and quality control samples. Method precision, expressed as the mean relative standard deviation, was less than 9.2\% for all calibrators. Quality control sample accuracy was 102\% and 100\% of the mean for VX spiked into HPLC-grade water at concentrations of 2.0 and 0.25 ng/mL, respectively. This method successfully was applied to aqueous extracts from soil, hamburger, and finished tap water spiked with VX. Recovery was 65%, 81%, and 100% from these matrixes, respectively. Biologically based extractions of organophosphorus compounds represent a new technique for sample extraction that provides an increase in extraction specificity and sensitivity.

PubMedSearch : Knaack_2012_Anal.Chem_84_10052
PubMedID: 23126363

Related information

Citations formats

Knaack JS, Zhou Y, Abney CW, Prezioso SM, Magnuson M, Evans R, Jakubowski EM, Hardy K, Johnson RC (2012)
High-Throughput Immunomagnetic Scavenging Technique for Quantitative Analysis of Live VX Nerve Agent in Water, Hamburger, and Soil Matrixes
Analytical Chemistry 84 :10052

Knaack JS, Zhou Y, Abney CW, Prezioso SM, Magnuson M, Evans R, Jakubowski EM, Hardy K, Johnson RC (2012)
Analytical Chemistry 84 :10052