Semi-autonomous inline water analyzer: design of a common light detector for bacterial, phage, and immunological biosensors.
Elodie C T DescampsDamien MeunierCatherine BrutescoSandra PrévéralNathalie FrancheIngrid BazinBertrand MiclotPhilippe LarosaCamille EscoffierJean-Raphael FantinoDaniel GarciaMireille AnsaldiAgnès RodrigueDavid PignolPierre CholatNicolas GinetPublished in: Environmental science and pollution research international (2016)
The use of biosensors as sensitive and rapid alert systems is a promising perspective to monitor accidental or intentional environmental pollution, but their implementation in the field is limited by the lack of adapted inline water monitoring devices. We describe here the design and initial qualification of an analyzer prototype able to accommodate three types of biosensors based on entirely different methodologies (immunological, whole-cell, and bacteriophage biosensors), but whose responses rely on the emission of light. We developed a custom light detector and a reaction chamber compatible with the specificities of the three systems and resulting in statutory detection limits. The water analyzer prototype resulting from the COMBITOX project can be situated at level 4 on the Technology Readiness Level (TRL) scale and this technical advance paves the way to the use of biosensors on-site.
Keyphrases
- label free
- quality improvement
- loop mediated isothermal amplification
- human health
- healthcare
- primary care
- heavy metals
- single cell
- risk assessment
- pseudomonas aeruginosa
- health insurance
- magnetic resonance imaging
- particulate matter
- computed tomography
- image quality
- stem cells
- mesenchymal stem cells
- health risk assessment
- drinking water