A simple, 10-min immunoassay system has been developed that simultaneously screens for five different classes of drugs of abuse in a urine sample. This system tests for amphetamines, cannabinoids, cocaine metabolites, opiates, and phencyclidine, and each assay has a specific preset cutoff concentration. Accuracy is > 99% for reporting positive or negative results for samples with 200% or 50%, respectively, of the cutoff concentrations of the drugs. Tests of a panel of 96 compounds yielded only three cases of nonspecific reactivity (at a drug concentration of 100 mg/L). Another panel of 12 compounds that could normally be found in urine samples was also evaluated and no interferences were observed. Concordance was > 95% between this system and the comparable automated immunoassays for detecting drugs of abuse. Greater than 98% of GC/MS-confirmed positive samples gave positive results with this assay system.
Field-flow fractionation is an analytical tool that has been historically used to separate species, ranging from molecules to particles or cells several micrometers in size. This technology can effect separation by size, density, charge, or other physical properties, depending on the configuration of the field-flow system. We have developed a miniature field-flow system to analyze cell populations in a small, 125-microns-deep channel 19 cm long. Gravity is used as the primary field to effect separation, and cell analysis is performed in < 20 min. Erythrocytes elute as a single peak when diluted blood is fractionated in this system. Analysis of blood samples from several donors (normal controls and patients with sickle cell anemia) yields erythrocyte peaks with slightly different mobilities (elution times). Peak mobility does not directly correlate with mean cell volume or other standard erythrocyte parameters. Cell density appears to be a key factor in determining cell mobility with this system.
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