Melody M. Anderson scite author profile

Melody M. Anderson

4Publications

98Citation Statements Received

60Citation Statements Given

How they've been cited

153

How they cite others

Affiliations

Johnson Space Center, GTx (United States), National Aeronautics and Space Administration

Publications

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Continuous pH monitoring in a perfused bioreactor system using an optical pH sensor

Jeevarajan

Vani

Taylor

et al. 2002

Biotech & Bioengineering

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Monitoring and regulating the pH of the solution in a bioprocess is one of the key steps in the success of bioreactor operation. An in-line optical pH sensor, based on the optical absorption properties of phenol red present in the medium, was developed and tested in this work for use in NASA space bioreactors based on a rotating wall-perfused vessel system supporting a baby hamster kidney (BHK-21) cell culture. The sensor was tested over three 30-day and one 124-day cell runs. The pH sensor initially was calibrated and then used during the entire cell culture interval. The pH reported by the sensor was compared to that measured by a fiber optically coupled Shimadzu spectrophotometer and a blood gas analyzer. The maximum standard error of prediction for all the four cell runs for development pH sensor against BGA was +/-0.06 pH unit and for the fiber optically coupled Shimadzu spectrophotometer against the blood gas analyzer was +/-0.05 pH unit. The pH sensor system performed well without need of recalibration for 124 days.

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Long‐term continuous monitoring of dissolved oxygen in cell culture medium for perfused bioreactors using optical oxygen sensors

Gao

Jeevarajan

Anderson

2004

Biotech & Bioengineering

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For long-term growth of mammalian cells in perfused bioreactors, it is essential to monitor the concentration of dissolved oxygen (DO) present in the culture medium to ascertain the health of the cells. An optical oxygen sensor based on dynamic fluorescent quenching was developed for long-term continuous measurement of DO for NASA-designed rotating perfused bioreactors. Tris(4,7-diphenyl-1,10-phenanthroline) ruthenium(II) chloride is employed as the fluorescent dye indicator. A pulsed, blue LED was chosen as the excitation light source. The sensor can be sterilized using an autoclave. The sensors were tested in a perfused rotating bioreactor supporting a BHK-21 (baby hamster kidney) cell culture over one 28-day, one 43-day, and one 180-day cell runs. The sensors were initially calibrated in sterile phosphate-buffered saline (PBS) against a blood-gas analyzer (BGA), and then used continuously during the entire cell culture without recalibration. In the 180-day cell run, two oxygen sensors were employed; one interfaced at the outlet of the bioreactor and the other at the inlet of the bioreactor. The DO concentrations determined by both sensors were compared with those sampled and measured regularly with the BGA reference. The sensor outputs were found to correlate well with the BGA data throughout the experiment using a single calibration, where the DO of the culture medium varied between 25 and 60 mm Hg at the bioreactor outlet and 80-116 mm Hg at the bioreactor inlet. During all 180 days of culture, the precision and the bias were +/-5.1 mm Hg and -3.8 mm Hg at the bioreactor outlet, and +/- 19 mm Hg and -18 mm Hg at inlet. The sensor dynamic range is between 0 and 200 mm Hg and the response time is less than 1 minute. The resolution of the sensor is 0.1 mm Hg at 50 mm Hg, and 0.25 mm Hg at 130 mm Hg.

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Evaluation of the Paratrend Multi-Analyte Sensor for Potential Utilization in Long-Duration Automated Cell Culture Monitoring

Hwang

Pappas

Jeevarajan³

et al. 2004

Biomedical Microdevices

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On-Line Measurement of Glucose in a Rotating Wall Perfused Vessel Bioreactor Using an Amperometric Glucose Sensor

Jeevarajan

Fay

et al. 2002

J. Electrochem. Soc.

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A high performance, long-term, stable glucose sensor was developed and evaluated for continuous measurement of glucose for use in National Aeronautics and Space Administration space bioreactors while using a rotating wall perfused vessel system to support a baby hamster kidney (BHK-21) cell culture. The sensor employs a glucose oxidase multilayered membrane with a hydrogen peroxide electrode system. The output of the sensor was converted to glucose concentration utilizing the two-point calibration method. The sensor, tested over four 30 day bioreactor cell runs, showed a steady-state response time of less than 15 min. The sensor was able to measure glucose continuously and accurately for 16 days while using a single calibration and 30 days using two sets of calibrations, resulting in a standard error of prediction of ±0.5 normalmM as against a benchtop Beckman glucose analyzer. Evaluation conditions like cell culture pH, incubator temperature conditions, and operational flow rate, were found to have a very little effect on the sensor performance. © 2002 The Electrochemical Society. All rights reserved.

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