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Multi-channel probes are important tools for accurate serodiagnostics. Yet, their use generally relies on expensive integrated equipment, which hinders their wide use in point-of-care diagnostics. In this study, we report a low-cost dual-channel probe Cu-S-ALG for the accurate quantification of H 2 S in serum by using inexpensive incandescent lamp and mobile phone with near-infrared camera as signal excitation and collection devices respectively. With thiol addition, the Cu-S-ALG nanogel is stabler than the conversional Cu-based nanogels in the presence of H 2 S, which makes it a low-cost and reliable sensor. Meanwhile, this sensor requires less expensive instrumentation than traditional multi-channel sensors ( €4000). Further using serum H 2 S level as a biomarker, we constructed test strips and optimal thresholds, achieving accurate point-of-care serodiagnostics of acute pancreatitis with reliable precision rate of 95.83%, which is significantly higher than the conversional single signal methods (77.50 – 83.00%). • It presents the first example of low-cost dual-channel probe for serodiagnostics. • It shows thiol addition can improve stability of Cu-based hydrogel for H 2 S detection • It ensures high diagnostic precision (>95%) while using low-cost equipment (<€500)
Qin et al. (Fri,) studied this question.