A structured, dynamic model for animal cell culture systems: Application to murine hybridoma

C. S. Sanderson; J. D. Jang; J. P. Barford; G. W. Barton

doi:10.1016/S1369-703X(99)00020-0

A structured, dynamic model for animal cell culture systems: Application to murine hybridoma

C. S. Sanderson, J. D. Jang, J. P. Barford^*, G. W. Barton

^*Corresponding author for this work

Research output: Contribution to journal › Journal Article › peer-review

10 Citations (Scopus)

Abstract

A detailed, structured animal cell model has a number of interesting potential applications. In this paper, a structured model will be 'tuned' to data for two different murine hybridoma cell lines, 2HG11 and AFP27. With an appropriate set of parameters, the model was able to describe the behaviour of both these cultures accurately. In order to demonstrate that the model could predict the behaviour of AFP27 cells under different conditions, a further AFP27 experiment was performed and its results compared to model predictions. The model was capable of matching the behaviour of this culture using the parameters derived from the earlier data set. Differences between the predictions and the experimental data suggest regions in which either the model needs to be strengthened or in which the experimental data is questionable.

Original language	English
Pages (from-to)	213-218
Number of pages	6
Journal	Biochemical Engineering Journal
Volume	3
Issue number	3
DOIs	https://doi.org/10.1016/S1369-703X(99)00020-0
Publication status	Published - Jun 1999
Externally published	Yes

Keywords

Animal cell culture
Biokinetics
Dynamic modelling
Dynamic simulation
Hybridoma cultures
Monoclonal antibodies

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10.1016/S1369-703X(99)00020-0

Cite this

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title = "A structured, dynamic model for animal cell culture systems: Application to murine hybridoma",

abstract = "A detailed, structured animal cell model has a number of interesting potential applications. In this paper, a structured model will be 'tuned' to data for two different murine hybridoma cell lines, 2HG11 and AFP27. With an appropriate set of parameters, the model was able to describe the behaviour of both these cultures accurately. In order to demonstrate that the model could predict the behaviour of AFP27 cells under different conditions, a further AFP27 experiment was performed and its results compared to model predictions. The model was capable of matching the behaviour of this culture using the parameters derived from the earlier data set. Differences between the predictions and the experimental data suggest regions in which either the model needs to be strengthened or in which the experimental data is questionable.",

keywords = "Animal cell culture, Biokinetics, Dynamic modelling, Dynamic simulation, Hybridoma cultures, Monoclonal antibodies",

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year = "1999",

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T2 - Application to murine hybridoma

AU - Sanderson, C. S.

AU - Jang, J. D.

AU - Barford, J. P.

AU - Barton, G. W.

PY - 1999/6

Y1 - 1999/6

N2 - A detailed, structured animal cell model has a number of interesting potential applications. In this paper, a structured model will be 'tuned' to data for two different murine hybridoma cell lines, 2HG11 and AFP27. With an appropriate set of parameters, the model was able to describe the behaviour of both these cultures accurately. In order to demonstrate that the model could predict the behaviour of AFP27 cells under different conditions, a further AFP27 experiment was performed and its results compared to model predictions. The model was capable of matching the behaviour of this culture using the parameters derived from the earlier data set. Differences between the predictions and the experimental data suggest regions in which either the model needs to be strengthened or in which the experimental data is questionable.

AB - A detailed, structured animal cell model has a number of interesting potential applications. In this paper, a structured model will be 'tuned' to data for two different murine hybridoma cell lines, 2HG11 and AFP27. With an appropriate set of parameters, the model was able to describe the behaviour of both these cultures accurately. In order to demonstrate that the model could predict the behaviour of AFP27 cells under different conditions, a further AFP27 experiment was performed and its results compared to model predictions. The model was capable of matching the behaviour of this culture using the parameters derived from the earlier data set. Differences between the predictions and the experimental data suggest regions in which either the model needs to be strengthened or in which the experimental data is questionable.

KW - Animal cell culture

KW - Biokinetics

KW - Dynamic modelling

KW - Dynamic simulation

KW - Hybridoma cultures

KW - Monoclonal antibodies

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A structured, dynamic model for animal cell culture systems: Application to murine hybridoma

Abstract

Keywords

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