Sensor system for on-line monitoring of cell cultures

Carmen Moldovan; Rodica Iosub; Radu Cornel; Eric Moore; Anna Paschero; Walter Messina; Danilo Demarchi; Cecilia Codreanu; Daniel Necula; Nita Codreanu; Adrian Dinescu; Bogdan Firtat

doi:10.1109/SMICND.2009.5336550

Sensor system for on-line monitoring of cell cultures

Carmen Moldovan
, Rodica Iosub
, Radu Cornel
, Eric Moore
, Anna Paschero
, Walter Messina
, Danilo Demarchi
, Cecilia Codreanu
, Daniel Necula
, Nita Codreanu
, Adrian Dinescu
, Bogdan Firtat

Research output: Chapter in Book/Report/Conference proceedings › Conference proceeding › peer-review

Abstract

The paper is presenting the development of a sensor system dedicated to monitor the environment of eukaryotic cells culture acting as biosensors for toxins detection. The system we are presenting is containing pH, and temperature sensors integrated into microfluidic channels. The sensors have the role to characterize the cells living conditions (temperature and pH) and are monitoring the cell biochip 24h a day providing data acquisition Labview based. The continuous 46h pH monitoring has been performed and the data will be presented. These data are stored for interpretation and decision. The sensors characteristics will be presented. The sensor system for on-line monitoring of cell cultures is designed to ensure that cells are maintained at 37°C and that both the sensing and electrical contacts function and perform under such conditions. The regulation of the temperature at 37°C within the system ensures that on during analysis is maintained a stable environment which will prolong the lifetime of the cells.

Original language	English
Title of host publication	CAS 2009 Proceedings - 2009 International Semiconductor Conference
Pages	263-266
Number of pages	4
DOIs	https://doi.org/10.1109/SMICND.2009.5336550
Publication status	Published - 2009
Event	2009 International Semiconductor Conference, CAS 2009 - Sinaia, Romania Duration: 12 Oct 2009 → 14 Oct 2009

Publication series

Name	Proceedings of the International Semiconductor Conference, CAS
Volume	1

Conference

Conference	2009 International Semiconductor Conference, CAS 2009
Country/Territory	Romania
City	Sinaia
Period	12/10/09 → 14/10/09

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10.1109/SMICND.2009.5336550

Cite this

Moldovan, C., Iosub, R., Cornel, R., Moore, E., Paschero, A., Messina, W., Demarchi, D., Codreanu, C., Necula, D., Codreanu, N., Dinescu, A., & Firtat, B. (2009). Sensor system for on-line monitoring of cell cultures. In CAS 2009 Proceedings - 2009 International Semiconductor Conference (pp. 263-266). Article 5336550 (Proceedings of the International Semiconductor Conference, CAS; Vol. 1). https://doi.org/10.1109/SMICND.2009.5336550

@inproceedings{6733b7558a314708bbc3de5e0f6a4735,

title = "Sensor system for on-line monitoring of cell cultures",

abstract = "The paper is presenting the development of a sensor system dedicated to monitor the environment of eukaryotic cells culture acting as biosensors for toxins detection. The system we are presenting is containing pH, and temperature sensors integrated into microfluidic channels. The sensors have the role to characterize the cells living conditions (temperature and pH) and are monitoring the cell biochip 24h a day providing data acquisition Labview based. The continuous 46h pH monitoring has been performed and the data will be presented. These data are stored for interpretation and decision. The sensors characteristics will be presented. The sensor system for on-line monitoring of cell cultures is designed to ensure that cells are maintained at 37°C and that both the sensing and electrical contacts function and perform under such conditions. The regulation of the temperature at 37°C within the system ensures that on during analysis is maintained a stable environment which will prolong the lifetime of the cells.",

author = "Carmen Moldovan and Rodica Iosub and Radu Cornel and Eric Moore and Anna Paschero and Walter Messina and Danilo Demarchi and Cecilia Codreanu and Daniel Necula and Nita Codreanu and Adrian Dinescu and Bogdan Firtat",

year = "2009",

doi = "10.1109/SMICND.2009.5336550",

language = "English",

isbn = "9781424444137",

series = "Proceedings of the International Semiconductor Conference, CAS",

pages = "263--266",

booktitle = "CAS 2009 Proceedings - 2009 International Semiconductor Conference",

note = "2009 International Semiconductor Conference, CAS 2009 ; Conference date: 12-10-2009 Through 14-10-2009",

}

Moldovan, C, Iosub, R, Cornel, R, Moore, E, Paschero, A, Messina, W, Demarchi, D, Codreanu, C, Necula, D, Codreanu, N, Dinescu, A & Firtat, B 2009, Sensor system for on-line monitoring of cell cultures. in CAS 2009 Proceedings - 2009 International Semiconductor Conference., 5336550, Proceedings of the International Semiconductor Conference, CAS, vol. 1, pp. 263-266, 2009 International Semiconductor Conference, CAS 2009, Sinaia, Romania, 12/10/09. https://doi.org/10.1109/SMICND.2009.5336550

Sensor system for on-line monitoring of cell cultures. / Moldovan, Carmen; Iosub, Rodica; Cornel, Radu et al.
CAS 2009 Proceedings - 2009 International Semiconductor Conference. 2009. p. 263-266 5336550 (Proceedings of the International Semiconductor Conference, CAS; Vol. 1).

Research output: Chapter in Book/Report/Conference proceedings › Conference proceeding › peer-review

TY - GEN

T1 - Sensor system for on-line monitoring of cell cultures

AU - Moldovan, Carmen

AU - Iosub, Rodica

AU - Cornel, Radu

AU - Moore, Eric

AU - Paschero, Anna

AU - Messina, Walter

AU - Demarchi, Danilo

AU - Codreanu, Cecilia

AU - Necula, Daniel

AU - Codreanu, Nita

AU - Dinescu, Adrian

AU - Firtat, Bogdan

PY - 2009

Y1 - 2009

N2 - The paper is presenting the development of a sensor system dedicated to monitor the environment of eukaryotic cells culture acting as biosensors for toxins detection. The system we are presenting is containing pH, and temperature sensors integrated into microfluidic channels. The sensors have the role to characterize the cells living conditions (temperature and pH) and are monitoring the cell biochip 24h a day providing data acquisition Labview based. The continuous 46h pH monitoring has been performed and the data will be presented. These data are stored for interpretation and decision. The sensors characteristics will be presented. The sensor system for on-line monitoring of cell cultures is designed to ensure that cells are maintained at 37°C and that both the sensing and electrical contacts function and perform under such conditions. The regulation of the temperature at 37°C within the system ensures that on during analysis is maintained a stable environment which will prolong the lifetime of the cells.

AB - The paper is presenting the development of a sensor system dedicated to monitor the environment of eukaryotic cells culture acting as biosensors for toxins detection. The system we are presenting is containing pH, and temperature sensors integrated into microfluidic channels. The sensors have the role to characterize the cells living conditions (temperature and pH) and are monitoring the cell biochip 24h a day providing data acquisition Labview based. The continuous 46h pH monitoring has been performed and the data will be presented. These data are stored for interpretation and decision. The sensors characteristics will be presented. The sensor system for on-line monitoring of cell cultures is designed to ensure that cells are maintained at 37°C and that both the sensing and electrical contacts function and perform under such conditions. The regulation of the temperature at 37°C within the system ensures that on during analysis is maintained a stable environment which will prolong the lifetime of the cells.

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M3 - Conference proceeding

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SN - 9781424444137

T3 - Proceedings of the International Semiconductor Conference, CAS

SP - 263

EP - 266

BT - CAS 2009 Proceedings - 2009 International Semiconductor Conference

T2 - 2009 International Semiconductor Conference, CAS 2009

Y2 - 12 October 2009 through 14 October 2009

ER -

Sensor system for on-line monitoring of cell cultures

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