Rapid Detection of Drugs in Human Plasma Using a Small-Molecule-Linked Hybridization Chain Reaction.

Rapid detection and quantification of pharmaceutical drugs directly in human plasma is of major importance for the development of relevant point-of-care testing devices. Here, we report a method for detection and quantification of small molecules in human plasma. An assay employing a small molecule-linked hybridization chain reaction (HCR) has been devised for the detection of the pharmaceutically relevant drugs digoxin (Dig) and methotrexate (MTX). Double modification by small molecule ligands on the initiator strand act as sites to control the rate of the HCR. Upon protein binding to the modified initiator strand, the HCR is greatly inhibited. If the protein is preincubated with a sample containing the small molecule analyte, the protein binding site is occupied by the analyte and the initiator strand will initiate the HCR. This enables efficient detection and quantification of small-molecule analytes in nanomolar concentration even in 50% human plasma within 4 min. Thus, the rapidity and simplicity of this assay has potential for point-of-care testing.