MODEL COMPARISON TO DESCRIBE BHK-21 CELL GROWTH AND METABOLISM IN STIRRED TANK BIOREACTORS OPERATED IN BATCH MODE

Sartori, Roger; Leme, Jaci; Caricati, Celso Pereira; Tonso, Aldo; Núñez, Eutimio Gustavo Fernández

doi:10.1590/0104-6632.20180352s20160592

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Bioprocess Engineering • Braz. J. Chem. Eng. 35 (2) • Apr-Jun 2018 • https://doi.org/10.1590/0104-6632.20180352s20160592 copy

MODEL COMPARISON TO DESCRIBE BHK-21 CELL GROWTH AND METABOLISM IN STIRRED TANK BIOREACTORS OPERATED IN BATCH MODE

Authorship SCIMAGO INSTITUTIONS RANKINGS

Abstract

Baby Hamster Kidney cells (BHK-21) are commonly used in research and the biopharmaceutical industry. This work aimed to model the kinetic performance in batch operation mode of BHK-21 cells cultured in two stirred tank configurations using different dissolved oxygen concentrations and pH control strategies. Viable and dead cell concentrations, as well as glucose, glutamine, lactate and ammonium concentrations, were monitored. Statistical multiple linear regression, logistic equation and multiplicative Monod kinetic models were fitted. Statistical models for viable cells concentration as a function of nutrient and metabolite concentrations were significant (R² >0.91). Logistic model parameters: intrinsic growth rate, cell density level in the medium and time for reaching maximum cell concentrations were within 0.061-0.083 h^-1, 1.85-5.39 x 10⁹ cell L^-1 and 52-90 h ranges, respectively. A Monod-type model was satisfactorily fitted to the experimental data. Relative errors were lower than 10% for six monitored state variables in most of the assessed experimental conditions. The three models developed in this work can be used in bioprocesses involving BHK-21 with good fitting.

Key-words:
batch operation; bioprocess engineering; mammalian cell culture; mathematical modelling; stirred tank bioreactor

Bioreactor	pH control mode (NaHCO₃ addition)	Dissolved oxygen concentration (% air saturation)	b₀	b_A	b_G	b_Q	b_L	R²	Relative error (%) [e_r± s.d.] ^* * erand s.d. represent average and standard deviation of the relative error.
Bioflo 110	No	10	9.386	-0.061	0.362	0.228	0.362	95.56	8.38±7.89
		30	13.849	0.497	0.151	0.229	0.205	97.50	8.04±6.44
		50	14.717	0.177	0.249	-0.571	0.230	99.03	4.46±4.93
		70	11.408	0.425	0.409	-0.777	0.177	91.84	8.55±9.13
	Yes	30 ⁽¹⁾ (1), (2) First and second repetition of the same experiment, respectively.	22.151	-0.161	0.040	-1.174	0.013	97.00	8.54±5.11
		30 ⁽²⁾ (1), (2) First and second repetition of the same experiment, respectively.	20.940	0.388	0.034	-0.777	0.021	99.76	2.85±2.89
		50 ⁽¹⁾ (1), (2) First and second repetition of the same experiment, respectively.	22.947	-0.162	0.001	-1.002	-0.017	93.81	11.63±9.77
		50 ⁽²⁾ (1), (2) First and second repetition of the same experiment, respectively.	18.186	-0.116	0.157	-0.835	0.127	99.99	2.88±7.04
Celligen	No	10	23.488	-0.212	-0.035	-0.929	-0.016	99.15	6.29±5.74
		30	17.615	-0.301	0.276	-1.446	0.129	99.36	2.18±1.57
		50	23.199	-0.241	-0.042	-0.861	-0.017	99.78	2.16±2.05

Bioreactor	pH control mode (NaHCO₃ addition)	Dissolved oxygen concentration (% air saturation)	X_v∞ (cells L ^-1)	k (h ^-1)	t_m (h)	Relative error (%) [ e_r ± s.d.] ^* * erand s.d. represent average and standard deviation of the relative error.
Bioflo 110	No	10	1.85 x 10⁹	0.0834	53	7.56±3.90
		30	3.74 x 10⁹	0.0704	67	10.29±6.10
		50	4.35 x 10⁹	0.0778	68	5.08±3.71
		70	2.28 x 10⁹	0.0663	68	9.62±5.47
	Yes	30 ⁽¹⁾	5.39 x 10⁹	0.0800	67	5.29±3.42
		30 ⁽²⁾	5.01 x 10⁹	0.0760	90	5.85±4.51
		50 ⁽¹⁾	4.17 x 10⁹	0.0826	80	7.97±5.05
		50 ⁽²⁾	4.64 x 10⁹	0.0738	77	6.64±5.05
Celligen	No	10	4.64 x 10⁹	0.0827	71	9.10±5.48
		30	3.42 x 10⁹	0.0740	67	5.93±2.92
		50	3.72 x 10⁹	0.0611	64	7.98±3.79

State variable	Relative errors for set of experiments (%) [e_r± s.d.]
State variable	Bioflo 110 without NaHCO₃ addition	Bioflo 110 with NaHCO₃ addition	Celligen without NaHCO₃ addition
A	6.34±5.82	10.94±14.22	12.59±15.16
G	5.10±4.15	8.76±11.84	4.11±3.93
L	5.96±6.15	7.93±10.47	3.68±3.51
Q	4.58±5.55	6.04±8.96	5.79±8.93
X_d	3.81±6.38	5.21±6.76	5.13±7.03
X_v	7.99±8.06	11.24±10.92	8.26±8.55

Bioreactor		Bioflo 110								Celligen
Dissolved oxygen concentration (% air saturation)		10	30	50	70	30 ⁽¹⁾ (1), (2) First and second repetition of the same experiment, respectively.	30 ⁽²⁾ (1), (2) First and second repetition of the same experiment, respectively.	50 ⁽¹⁾ (1), (2) First and second repetition of the same experiment, respectively.	50 ⁽²⁾ (1), (2) First and second repetition of the same experiment, respectively.	10	30	50
Addition of NaHCO3 to control pH		No	No	No	No	Yes	Yes	Yes	Yes	No	No	No
Parameter	Unit
µ_max	h ^-1	0.054	0.080	0.065	0.049	0.063	0.062	0.070	0.076	0.075	0.071	0.062
K_A	mM	110. 0	57.35	98.08	89.68	81.88	94.99	40.88	30.99	65.11	36.84	67.88
k_d.max	h ^-1	0.0059	0.0056	0.0046	0.0304	0.0084	0.0054	0.0110	0.0126	0.0022	0.0129	0.0084
k_d.Q	h ^-1	0.001	0.001	0.001	0.002	0.003	0.003	0.001	0.001	0.002	0.001	0.004
K_G	mM	0.10	0.77	0.10	0.10	0.53	0.05	0.37	0.22	1.99	1.11	0.13
K_L	mM	117.41	150.26	169.37	197.30	200.00	139.65	206.51	116.02	116.14	131.28	118.37
K_LYSIS	h ^-1	0.062	0.024	0.001	0.027	0.001	0.004	0.001	0.010	0.019	0.013	0.001
K_Q	mM	0.272	0.954	0.273	0.591	0.205	0.286	0.604	0.787	0.198	0.290	0.744
k_u	h ^-1	0.004	0.001	0.001	0.001	0.001	0.005	0.001	0.001	0.001	0.001	0.007
m_G	10 ^-13 mmol cell ^-1h ^-1	10.00	14.99	15.00	0.10	10.00	20.00	15.00	16.00	2.22	16.00	0.10
m_Q	10 ^-12mmol cell ^-1h ^-1	3.17	0.59	0.10	0.81	0.10	0.05	0.10	0.10	0.10	0.11	0.10
Y_A/Q	-	0.707	0.796	0.719	0.776	0.689	0.421	0.551	0.734	0.562	0.910	0.867
Y_L/G	-	1.563	1.450	1.173	1.585	1.433	1.318	1.530	1.376	1.511	1.719	1.588
Y_X/G	cells mmol ^-1	1.43 x 10⁸	2.12 x 10⁸	2.41 x 10⁸	1.18 x 10⁸	1.88 x 10⁸	1.90 x 10⁸	1.95 x 10⁸	2.40 x 10⁸	1.97 x 10⁸	1.51 x 10⁸	1.10 x 10⁸
Y_X/Q	cells mmol ^-1	4.58 x 10⁸	1.07 x 10⁹	1.25 x 10⁹	4.89x 10⁸	1.43 x 10⁹	1.50 x 10⁹	1.11 x 10⁹	1.34 x 10⁹	1.39 x 10⁹	8.44 x 10⁸	8.07 x 10⁸

Model	Parameter	Coefficient of variation [%]
		Dissolved oxygen concentration (% air saturation)
		30	50
Statistical regression	b₀	3.97	16.37
	b_A	342.0	23.40
	b_G	11.47	139.6
	b_Q	28.78	12.86
	b_L	33.28	185.15
Logistic equation	X_{v ∞}	5.17	7.54
	k	3.63	7.96
	t_m	20.84	2.83
Monod- Type	µ_max	1.13	5.81
	K_A	10.48	19.46
	k_d.max	30.74	9.59
	k_d.Q	0.00	0.00
	K_G	117.0	35.95
	K_L	25.13	39.68
	K_LYSIS	84.85	115.7
	K_Q	23.33	18.61
	k_u	94.28	0.00
	m_G	47.14	4.56
	m_Q	47.14	0.00
	Y_A/Q	34.14	20.14
	Y_L/G	5.91	7.49
	Y_X/G	0.75	14.63
	Y_X/Q	3.38	13.28

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[1] *Corresponding author: eutimiocu@yahoo.com