Label-free, scalable and point-of-care imaging platform for rapid analysis of biomarker

We propose a disruptive point-of-care (PoC) imaging platform based on lens-free interference phase-contrast imaging for rapid detection of biomarker such as for sepsis and potentially other diseases (e.g. cancer). It enables simultaneous analysis of potentially up to 10,000 functionalized microarray spots with different biomarkers with fast time-to-results (few minutes) and by consuming a small sample volume (similar to 10 mu L). The high sensitivity allows direct measurements of the biomarker binding without the use of fluorescent labels (e.g. ELISA) or microbial culture methods. In addition, ad-hoc plasmonic nano-structuring is utilized to significantly improve the sensitivity for biomarker detection (optical path difference similar to A) to concentration levels relevant for disease diagnosis. The proposed technology incorporates a portable and low-cost lens-free imaging reader made of consumer electronic components, plasmonic microarrays with distinct functionalization, and user-friendly software based on a novel phase-shifting interferometry method for topography and refractive index analysis. Due to its compactness and cost-efficiency, we foresee a great potential for PoC applications, especially for the rapid detection of infectious diseases or life-threatening conditions, e.g. sepsis, but also for clinical trials of drugs and food control.