Abstract
Bead-based immunosensors have intrigued the scientific community over the past decades due to their rapid and multiplexed capabilities in the detection of various biological targets. Nevertheless, their use in the detection of low-abundance analytes remains a continuing challenge because of their limited number of active enrichment approaches. To this end, our research presents a delicate microbead enrichment technique using an optoelectrokinetic platform, followed by the detection of dual biomarkers for the sensitive screening of an eye disease termed diabetic retinopathy (DR). In this study, microbeads turned fluorescent as their surfaces formed sandwiched immunocomplexes in the presence of target antigens. The tiny fluorescent dots were then concentrated using the optoelectrokinetic platform for the enhancement of their signals. The signal rapidly escalated in 10 s, and the optimal limit of detection was nearly 100 pg mL-1. For practical DR screening, two biomarkers, lipocalin 1 (LCN1) and vascular endothelial growth factor (VEGF), were used. Approximately 20 μL of analytes were collected from the tear samples of the tested patients. The concentrations of both biomarkers showed escalating trends with the severity of DR. Two concentration thresholds of LCN1 and VEGF that indicate proliferative DR were determined out of 24 clinical samples based on the receiver operating characteristic curves. For verification, a single-blind test was conducted with additional clinical tear samples from five random subjects. The final outcome of this evaluation showed an accuracy of >80%. This non-invasive screening provides a potential means for the early diagnosis of DR and may increase the screening rate among the high-risk diabetic population in the future.
Highlights
Bead-based immunosensors have intrigued the scientific community over the past decades due to their rapid and multiplexed capabilities in the detection of various biological targets
lipocalin 1 (LCN1) belongs to the lipocalin family of extracellular proteins that may bind to hydrophobic ligands and inhibit cysteine proteinases
The root causes of this condition may be attributed to the inconvenience of current clinical screening procedures, such as fear of invasive examinations (e.g., fluorescence angiography (FAG)), unreliability due to non-quantitative diagnosis, and high cost for some new diagnostic instruments, such as optical coherence tomography (OCT)
Summary
Bead-based immunosensors have intrigued the scientific community over the past decades due to their rapid and multiplexed capabilities in the detection of various biological targets. The minimum volume of the tear sample, 1.5 μL, was experimentally determined by our previous study.[33] By investigating tear samples from 24 clinical volunteer subjects, the estimated concentration thresholds of LCN1 and VEGF for PDR were approximately 250 μg ml−1 and 10 ng ml−1 based on the receiver operating characteristic (ROC) curves, respectively. With this standard, a single-blind test was conducted with five additional clinical tear samples to verify the feasibility of the technique. This technique can be applied to other tear screenings of diseases in the future by replacing their corresponding capture and probe antibodies
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