Death rate in a small air-lift loop reactor of vero cells grown on solid microcarriers and in macroporous microcarriers

D E Martens; E A Nollen; M Hardeveld; C A Velden-de Groot; C D Gooijer; E C Beuvery; J Tramper

doi:10.1023/B:CYTO.0000010399.23373.65

Death rate in a small air-lift loop reactor of vero cells grown on solid microcarriers and in macroporous microcarriers

D E Martens, E A Nollen, M Hardeveld, C A Velden-de Groot, C D Gooijer, E C Beuvery, J Tramper

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

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Abstract

The death rate of Vero cells grown on Cytodex-3 microcarrierswas studied as a function of the gas flow rate in a smallair-lift loop reactor. The death rate may be described byfirst-order death-rate kinetics. The first-order death-rateconstant as calculated from the decrease in viable cells, theincrease in dead cells and the increase in LDH activity islinear proportional to the gas flow rate, with a specifichypothetical killing volume in which all cells are killed ofabout 2.10(-3)m(3) liquid per m(3) of air bubbles.In addition, an experiment was conducted in the sameair-lift reactor with Vero cells grown inside porous Asahimicrocarriers. The specific hypothetical killing volumecalculated from this experiment has a value of 3.10(-4)m(3) liquid per m(3) of air bubbles, which shows thatthe porous microcarriers were at least in part able to protectthe cells against the detrimental hydrodynamic forcesgenerated by the bubbles.

Original language	English
Pages (from-to)	61-75
Number of pages	15
Journal	Cytotechnology
Volume	23
Issue number	1
DOIs	https://doi.org/10.1023/B:CYTO.0000010399.23373.65
Publication status	Published - Jan-1997

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title = "Death rate in a small air-lift loop reactor of vero cells grown on solid microcarriers and in macroporous microcarriers",

abstract = "The death rate of Vero cells grown on Cytodex-3 microcarrierswas studied as a function of the gas flow rate in a smallair-lift loop reactor. The death rate may be described byfirst-order death-rate kinetics. The first-order death-rateconstant as calculated from the decrease in viable cells, theincrease in dead cells and the increase in LDH activity islinear proportional to the gas flow rate, with a specifichypothetical killing volume in which all cells are killed ofabout 2.10(-3)m(3) liquid per m(3) of air bubbles.In addition, an experiment was conducted in the sameair-lift reactor with Vero cells grown inside porous Asahimicrocarriers. The specific hypothetical killing volumecalculated from this experiment has a value of 3.10(-4)m(3) liquid per m(3) of air bubbles, which shows thatthe porous microcarriers were at least in part able to protectthe cells against the detrimental hydrodynamic forcesgenerated by the bubbles.",

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year = "1997",

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language = "English",

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T1 - Death rate in a small air-lift loop reactor of vero cells grown on solid microcarriers and in macroporous microcarriers

AU - Martens, D E

AU - Nollen, E A

AU - Hardeveld, M

AU - Velden-de Groot, C A

AU - Gooijer, C D

AU - Beuvery, E C

AU - Tramper, J

PY - 1997/1

Y1 - 1997/1

N2 - The death rate of Vero cells grown on Cytodex-3 microcarrierswas studied as a function of the gas flow rate in a smallair-lift loop reactor. The death rate may be described byfirst-order death-rate kinetics. The first-order death-rateconstant as calculated from the decrease in viable cells, theincrease in dead cells and the increase in LDH activity islinear proportional to the gas flow rate, with a specifichypothetical killing volume in which all cells are killed ofabout 2.10(-3)m(3) liquid per m(3) of air bubbles.In addition, an experiment was conducted in the sameair-lift reactor with Vero cells grown inside porous Asahimicrocarriers. The specific hypothetical killing volumecalculated from this experiment has a value of 3.10(-4)m(3) liquid per m(3) of air bubbles, which shows thatthe porous microcarriers were at least in part able to protectthe cells against the detrimental hydrodynamic forcesgenerated by the bubbles.

AB - The death rate of Vero cells grown on Cytodex-3 microcarrierswas studied as a function of the gas flow rate in a smallair-lift loop reactor. The death rate may be described byfirst-order death-rate kinetics. The first-order death-rateconstant as calculated from the decrease in viable cells, theincrease in dead cells and the increase in LDH activity islinear proportional to the gas flow rate, with a specifichypothetical killing volume in which all cells are killed ofabout 2.10(-3)m(3) liquid per m(3) of air bubbles.In addition, an experiment was conducted in the sameair-lift reactor with Vero cells grown inside porous Asahimicrocarriers. The specific hypothetical killing volumecalculated from this experiment has a value of 3.10(-4)m(3) liquid per m(3) of air bubbles, which shows thatthe porous microcarriers were at least in part able to protectthe cells against the detrimental hydrodynamic forcesgenerated by the bubbles.

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DO - 10.1023/B:CYTO.0000010399.23373.65

M3 - Article

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SN - 0920-9069

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EP - 75

JO - Cytotechnology

JF - Cytotechnology

IS - 1

ER -

Death rate in a small air-lift loop reactor of vero cells grown on solid microcarriers and in macroporous microcarriers

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