The Impact of Microelectrode Pattern on the Sensitivity of Tracing Environmental CO 2 Deficiency in Cellular Metabolism by a New Design of Electrochemical Biosensor.

Here, two different electrode patterns are described as cyclic voltammetry (CV) biosensors to detect the effect of a hypo CO 2 condition (for 6 h) in ambient on cellular secretion. The cells were selected from breast cancer and endothelial standard lines. Changes in CV peaks of the secretions were recorded by the modified pattern whereby increasing the interactive surface with homogenous electric paths was considered by simulation before fabrication. The results of the simulation and experimental procedures showed a meaningful correlation between hypo CO 2 samples and the occurrence of CV oxidative peaks at about 0.07 V and reductive peaks at approximately -0.22 V in the modified biosensor in all cell lines, while no apoptosis was found in any of the control and hypo CO 2 samples. This observation could not be related to the lack of H + (alkaline pH induction) in the media solution as such peaks were not observed in the pure cell culture medium but had been maintained in the hypo CO 2 ambient. This approach could be used as a cell-free sensor to monitor ambient shocks. This may not induce apoptosis but may be vital in the proliferation and protein expression of the cells, such as the hypo CO 2 ambient. The sensor is not disposable in use and showed repeatable responses after rinsing.