Biosensors exploiting unconventional platforms: The case of plasmonic light-diffusing fibers

In this work, an unconventional light-diffusing fiber (LDF) plasmonic platform is exploited to efficiently monitor a bio-interaction. The surface plasmon resonance (SPR)-LDF sensor is used to detect the immunoglobulin G (IgG)/anti-IgG interaction as exemplifying bioassay. The IgG bioreceptor was deposited on the gold surface of the SPR-LDF platform, and the biological target was transported through a customized thermo-stabilized flow cell by means of a buffer fluid. Moreover, to test the usability of the proposed SPR-LDF biosensor also for immunosensing in complex matrices, a second assay was conducted by immobilizing anti-C-reactive protein (CRP) and detecting different concentrations of CRP in human serum. An innovative data analysis approach for the extraction of the best value of the resonance wavelength was developed and applied. The obtained results reveal that the unconventional platform represented by the LDF can be successfully exploited for the implementation of SPR-based biosensors with very good performances, also when compared to more common SPR systems.

Automated summary

In this study, an unconventional light-diffusing fiber (LDF) plasmonic platform was used to efficiently monitor a bio-interaction. The surface plasmon resonance (SPR)-LDF sensor showed good performance in detecting the interaction between immunoglobulin G (IgG) and anti-IgG, as well as detecting C-reactive protein (CRP) in human serum. The innovative data analysis approach for resonance wavelength extraction demonstrated the potential of the LDF platform for SPR-based biosensors.