A portable chemical toxicity biochip based on electronic enzymatic monitoring of cytotoxic effects on fish cells

•Electrochemical cytotoxicity assay.•Environmental toxicants evaluated towards fish cells.•Prototype cytotoxicity biochip developed. Herein we describe a miniaturised chemical toxicity analyser with capacity to assess water quality without intervention of laboratory equipment. The device, as present...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Chemical, 2017-05, Vol.243, p.271-278
Main Authors: O Hara, Tony, Seddon, Brian, McClean, Siobhán, Dempsey, Eithne
Format: Article
Language:English
Subjects:
Acid phosphatase
Assaying
Biochips
Biosensor
Biosensors
Cadmium chloride
Cells
Cytotoxicity
Early warning systems
Electrochemical assay
Fish
Fish cells
Laboratory equipment
Oncorhynchus mykiss
Optimization
Organic chemistry
Pentachlorophenol
Quality assessment
Research methodology
Sensitivity enhancement
Toxicity
Trout
Water quality
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Summary:•Electrochemical cytotoxicity assay.•Environmental toxicants evaluated towards fish cells.•Prototype cytotoxicity biochip developed. Herein we describe a miniaturised chemical toxicity analyser with capacity to assess water quality without intervention of laboratory equipment. The device, as presented, integrates living cells and electrode-based sensors to monitor cell viability upon exposure to toxic chemicals. The methodology involved cultured fish cells Poeciliopsis lucidia hepatocellular carcinoma (PLHC-1) and Oncorhynchus mykiss rainbow trout gonad (RTG-2) cells, exposed to toxic chemicals (CdCl2 and pentachlorophenol (PCP)) after which the activity of a cellular enzyme, acid phosphatase (AP) was measured. Reduced AP activity was quantified electrochemically, allowing IC50 values (50% reduction in AP activity) to be determined. Fish cells are a relevant model of the toxicity risks posed by contaminated water to aquatic health. Such cells are relatively slow growing and do not require a source of CO2 for incubation, thus ensuring portability for single-use point of site applications. The 24hour IC50 values determined for CdCl2 in the fish cell lines (16.2±0.7 and 91±11μM for PLHC and RTG-2, respectively) were in agreement with those found using the MTT assay (16.3±1.6 and 164±96μM). In the case of PCP, the IC50 value in PHLC cells (127±22μM) suggested enhanced sensitivity towards PCP compared with the MTT assay (IC50>160μM). The optimised electronic assay was transferred to a prototype integrated assay cartridge with associated fluidic and transducer elements. This device (TOXOR) monitored changes in the metabolic state of fish cells, realising high-value toxicity information as a potential early warning on-site screening system.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2016.11.097