PathoSense: a rapid electroanalytical device platform for screening Salmonella in water samples.
Kundan Kumar MishraVikram Narayanan DhamuDurgasha C PoudyalSriram MuthukumarShalini PrasadPublished in: Mikrochimica acta (2024)
Salmonella contamination is a major global health challenge, causing significant foodborne illness. However, current detection methods face limitations in sensitivity and time, which mostly rely on the culture-based detection techniques. Hence, there is an immediate and critical need to enhance early detection, reduce the incidence and impact of Salmonella contamination resulting in outbreaks. In this work, we demonstrate a portable non-faradaic, electrochemical sensing platform capable of detecting Salmonella in potable water with an assay turnaround time of ~ 9 min. We evaluated the effectiveness of this sensing platform by studying two sensor configurations: one utilizing pure gold (Au) and the other incorporating a semiconductor namely a zinc oxide thin film coated on the surface of the gold (Au/ZnO). The inclusion of zinc oxide was intended to enhance the sensing capabilities of the system. Through comprehensive experimentation and analysis, the LoD (limit of detection) values for the Au sensor and Au/ZnO sensor were 0.9 and 0.6 CFU/mL, respectively. In addition to sensitivity, we examined the sensing platform's precision and reproducibility. Both the Au sensor and Au/ZnO sensor exhibited remarkable consistency, with inter-study percentage coefficient of variation (%CV) and intra-study %CV consistently below 10%. The proposed sensing platform exhibits high sensitivity in detecting low concentrations of Salmonella in potable water. Its successful development demonstrates its potential as a rapid and on-site detection tool, offering portability and ease of use. This research opens new avenues for electrochemical-based sensors in food safety and public health, mitigating Salmonella outbreaks and improving water quality monitoring.
Keyphrases
- loop mediated isothermal amplification
- sensitive detection
- reduced graphene oxide
- escherichia coli
- listeria monocytogenes
- quantum dots
- high throughput
- public health
- label free
- gold nanoparticles
- visible light
- global health
- room temperature
- real time pcr
- risk assessment
- water quality
- ionic liquid
- human health
- risk factors
- mass spectrometry
- computed tomography
- climate change
- molecularly imprinted
- contrast enhanced
- heavy metals