ON LINE COMPETITIVE IMMUNOASSAY FOR INSULIN BASED ON CAPILLARY ELECTROPHORESIS WITH LASER-INDUCED FLUORESCENCE DETECTION

An on-line competitive immunoassay for insulin has been developed and applied to monitoring insulin concentration in a flowing stream, In th e assay, solutions of fluorescein-labeled insulin (FITC-insulin), mono clonal anti-insulin, and sample containing insulin are pumped into a c ross where they begin to mix, The mixture flows through a fused silica reactor capillary to a flow-gated interface, During transfer to the i nterface, insulin and FITC-insulin compete to form a complex with the antibody, At the interface, a plug of the mixture is injected into a s eparation capillary, where the bound and free FITC-insulin are separat ed and detected by capillary electrophoresis with laser-induced fluore scence detection, The amount of bound FITC-insulin, amount of free FIT C-insulin, or bound/free ratio can be used to quantify insulin concent ration, Typical relative standard deviations of bound over free ratio are 5%. The detection limit of the immunoassay in the on-line mode is <0.3 nM. Each separation requires as little as 3 s, and over 1600 cons ecutive assays can be acquired with no need to rinse the separation ca pillary, Thus, the system can be used to monitor insulin in a flowing stream for now injection analysis or for sensor-like monitoring. Dilut ion and zone broadening during transfer of sample to the interface lim it the response time of the on-line system to about 25 s. As a demonst ration of the on-line immunoassay, the insulin content of single islet s of Langerhans was determined by flow injection analysis.