DocumentCode
3279220
Title
Simulation and design of a nitric oxide sensor array for cell cultures
Author
Aravindalochanan, Kuppusamy ; Kieninger, Jochen ; Urban, Gerald A. ; Jobst, Gerhard
Author_Institution
Dept. of Microsyst. Eng., Univ. of Freiburg, Freiburg, Germany
fYear
2009
fDate
25-28 Oct. 2009
Firstpage
325
Lastpage
328
Abstract
In this report, we detailed the design and fabrication of a nitric oxide (NO) sensor for cell culture measurements. As an example, we considered NO sensor design for hypoxic cell culture applications (cells which can proliferate at less than 4% oxygen concentration). Primarily, a set of 2D, steady state, reaction coupled diffusion simulation is performed. The simulation results suggest the optimal design of NO sensor array for NO hypoxic cell culture applications. It also deduces the current corresponding to pericellular NO concentration. From the design interpretations, we fabricated thin-film, planar, nitric oxide sensor array (electrode dia. 50 ¿m) for hypoxic cell cultures which is integrated at the bottom of the cell culture flask to form sensing cell culture flask (SCCF) for NO. We also presented the long-term measurement (upto 18 hrs) of MCF-7 hypoxic breast cancer cells which shows a linear increase in current with respect to time.
Keywords
bioMEMS; biological techniques; cancer; cellular biophysics; gas sensors; nitrogen compounds; reaction-diffusion systems; sensor arrays; 2D steady state reaction coupled diffusion simulation; MCF-7 hypoxic breast cancer cells; NO; cell culture flask; cell culture measurements; hypoxic cell culture applications; nitric oxide sensor array design; nitric oxide sensor array fabrication; nitric oxide sensor array simulation; thin film planar nitric oxide sensor array; Amperometric sensors; Breast cancer; Electrodes; Geometry; Platinum; Semiconductor device measurement; Sensor arrays; Solid modeling; Steady-state; Thin film sensors;
fLanguage
English
Publisher
ieee
Conference_Titel
Sensors, 2009 IEEE
Conference_Location
Christchurch
ISSN
1930-0395
Print_ISBN
978-1-4244-4548-6
Electronic_ISBN
1930-0395
Type
conf
DOI
10.1109/ICSENS.2009.5398149
Filename
5398149
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