Quantitative detection in the attomole range for immunochromatographic tests by means of a flatbed scanner.

This work describes the use of the combination of carbon black as an antibody label, a membrane-based immunochromatographic device, and a flatbed scanner as a quantitative test system. The scanner detected 0.4-345 ng carbon black/mm(2) on a nitrocellulose membrane (0.2-170 amol carbon black/mm(2)) with an imprecision (coefficient of variation, CV) lower than 2% for the carbon black determination and a detection limit of 0.04 ng carbon black/mm(2) (0.02 amol/mm(2)). The detection ability was compared to that obtained with alkaline phosphatase (ALP) using a substrate yielding a chemiluminescent signal (0.02 amol ALP/well), beta-galactosidase using a substrate yielding a fluorescent signal (0.3 amol beta-galactosidase/well), and horseradish peroxidase (HRP) using a substrate yielding a colored signal (5 amol HRP/microtiter well). The carbon black immunochromatographic test for immunoglobulin E (IgE) showed a detection limit of 0.13 pM IgE (0.01 kU/L) after a testing time of 10 min. The scanner detection imprecision for the IgE determination was 0.6% CV in the range 1-10 kU IgE/L when 2.3 mm(2) was used for detection and 1% CV when 0.19 mm(2) was used. A flatbed scanner is an inexpensive instrument with multiple uses, which now also includes the sensitive evaluation of immunoassays. Copyright 2001 Academic Press.