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Biotechnology Progress
Volumn 31, Issue 2, 2015, Pages 566-577
Cross-scale predictive modeling of CHO cell culture growth and metabolites using Raman spectroscopy and multivariate analysis
Author keywords

Cell culture; Multivariate analysis; Predictive modeling; Process analytical technology; Raman spectroscopy
Indexed keywords

CELL CULTURE; CELLS; FORECASTING; LEAST SQUARES APPROXIMATIONS; MANUFACTURE; METABOLITES; MONOCLONAL ANTIBODIES; MULTIVARIANT ANALYSIS; RAMAN SPECTROSCOPY; SPECTRUM ANALYSIS;
EID: 84928173379     PISSN: 87567938     EISSN: 15206033     Source Type: Journal    
DOI: 10.1002/btpr.2035     Document Type: Article
Times cited : (119)
References (40)
  • 4
    • 0013348347 scopus 로고
    • A new type of secondary radiation
    • Raman CV, Krishnan KS. A new type of secondary radiation. Nature. 1928;121:501-502.
    • (1928) Nature , vol.121 , pp. 501-502
    • Raman, C.V.1    Krishnan, K.S.2
  • 5
    • 0031072603 scopus 로고    scopus 로고
    • Raman spectroscopy for process/quality control
    • Adar F, Geiger R, Noonan J. Raman spectroscopy for process/quality control. Appl Spectrosc Rev. 1997;32:45-101.
    • (1997) Appl Spectrosc Rev , vol.32 , pp. 45-101
    • Adar, F.1    Geiger, R.2    Noonan, J.3
  • 6
    • 70349949073 scopus 로고    scopus 로고
    • Advances in on-line monitoring and control of mammalian cell cultures: supporting the PAT initiative
    • Teixeira AP, Oliveira R, Alves PM, Carrondo MJ. Advances in on-line monitoring and control of mammalian cell cultures: supporting the PAT initiative. Biotechnol Adv. 2009;27:726-732.
    • (2009) Biotechnol Adv , vol.27 , pp. 726-732
    • Teixeira, A.P.1    Oliveira, R.2    Alves, P.M.3    Carrondo, M.J.4
  • 7
    • 84874571044 scopus 로고    scopus 로고
    • Raman spectroscopy in biomedicine-non-invasive in vitro analysis of cells and extracellular matrix components in tissues
    • Brauchle E, Schenke-layland K. Raman spectroscopy in biomedicine-non-invasive in vitro analysis of cells and extracellular matrix components in tissues. Biotechnol J. 2013;8:288-297.
    • (2013) Biotechnol J , vol.8 , pp. 288-297
    • Brauchle, E.1    Schenke-layland, K.2
  • 8
    • 0000893340 scopus 로고
    • Infrared and Raman spectroscopy of carbohydrates
    • Vasko P, Blackwell J, Koenig J. Infrared and Raman spectroscopy of carbohydrates. Carbohydr Res. 1971;19:297-310.
    • (1971) Carbohydr Res , vol.19 , pp. 297-310
    • Vasko, P.1    Blackwell, J.2    Koenig, J.3
  • 9
    • 0000172260 scopus 로고
    • Laser-Raman spectra of d-glucose and sucrose in aqueous solution
    • Mathlouthi M, Vinh Luu D. Laser-Raman spectra of d-glucose and sucrose in aqueous solution. Carbohydr Res. 1980;81:203-212.
    • (1980) Carbohydr Res , vol.81 , pp. 203-212
    • Mathlouthi, M.1    Vinh Luu, D.2
  • 10
    • 33745286782 scopus 로고    scopus 로고
    • From the gas phase to aqueous solution: vibrational spectroscopy, Raman optical activity and conformational structure of carbohydrates
    • Macleod NA, Johannessen C, Hecht L, Barron LD, Simons JP. From the gas phase to aqueous solution: vibrational spectroscopy, Raman optical activity and conformational structure of carbohydrates. Int J Mass Spectrom. 2006;253:193-200.
    • (2006) Int J Mass Spectrom , vol.253 , pp. 193-200
    • Macleod, N.A.1    Johannessen, C.2    Hecht, L.3    Barron, L.D.4    Simons, J.P.5
  • 12
    • 84988147948 scopus 로고
    • Raman spectra of L(+)-glutamic acid and related compounds
    • Shurvell HF, Bergin FJ. Raman spectra of L(+)-glutamic acid and related compounds. J Raman Spectrosc. 1989;20:163-168.
    • (1989) J Raman Spectrosc , vol.20 , pp. 163-168
    • Shurvell, H.F.1    Bergin, F.J.2
  • 16
    • 78149237599 scopus 로고    scopus 로고
    • Rapid characterization and quality control of complex cell culture media solutions using Raman spectroscopy and chemometrics
    • Li B, Ryan PW, Ray BH, Leister KJ, Sirimuthu NM, Ryder AG. Rapid characterization and quality control of complex cell culture media solutions using Raman spectroscopy and chemometrics. Biotechnol Bioeng. 2010;107:290-301.
    • (2010) Biotechnol Bioeng , vol.107 , pp. 290-301
    • Li, B.1    Ryan, P.W.2    Ray, B.H.3    Leister, K.J.4    Sirimuthu, N.M.5    Ryder, A.G.6
  • 17
    • 84866755820 scopus 로고    scopus 로고
    • Data fusion-based assessment of raw materials in mammalian cell culture
    • Lee HW, Christie A, Xu J, Yoon S. Data fusion-based assessment of raw materials in mammalian cell culture. Biotechnol Bioeng. 2012;109:2819-2828.
    • (2012) Biotechnol Bioeng , vol.109 , pp. 2819-2828
    • Lee, H.W.1    Christie, A.2    Xu, J.3    Yoon, S.4
  • 18
    • 0037023934 scopus 로고    scopus 로고
    • Monitoring of complex industrial bioprocesses for metabolite concentrations using modern spectroscopies and machine learning: application to gibberellic acid production
    • McGovern AC, Broadhurst D, Taylor J, Kaderbhai N, Winson MK, Small DA, Rowland JJ, Kell DB, Goodacre R. Monitoring of complex industrial bioprocesses for metabolite concentrations using modern spectroscopies and machine learning: application to gibberellic acid production. Biotechnol Bioeng. 2002;78:527-538.
    • (2002) Biotechnol Bioeng , vol.78 , pp. 527-538
    • McGovern, A.C.1    Broadhurst, D.2    Taylor, J.3    Kaderbhai, N.4    Winson, M.K.5    Small, D.A.6    Rowland, J.J.7    Kell, D.B.8    Goodacre, R.9
  • 19
    • 0038054935 scopus 로고    scopus 로고
    • On-line monitoring of Phaffia rhodozyma fed-batch process with in situ dispersive Raman spectroscopy
    • Cannizzaro C, Rhiel M, Marison I, Von stockar U. On-line monitoring of Phaffia rhodozyma fed-batch process with in situ dispersive Raman spectroscopy. Biotechnol Bioeng. 2003;83:668-680.
    • (2003) Biotechnol Bioeng , vol.83 , pp. 668-680
    • Cannizzaro, C.1    Rhiel, M.2    Marison, I.3    Von stockar, U.4
  • 20
    • 0033308906 scopus 로고    scopus 로고
    • Noninvasive, on-line monitoring of the biotransformation by yeast of glucose to ethanol using dispersive Raman spectroscopy and chemometrics
    • Shaw AD, Kaderbhai N, Jones A, Woodward AM, Goodacre R, Rowland JJ, Kell DB. Noninvasive, on-line monitoring of the biotransformation by yeast of glucose to ethanol using dispersive Raman spectroscopy and chemometrics. Appl Spectrosc. 1999;53:1419-1428.
    • (1999) Appl Spectrosc , vol.53 , pp. 1419-1428
    • Shaw, A.D.1    Kaderbhai, N.2    Jones, A.3    Woodward, A.M.4    Goodacre, R.5    Rowland, J.J.6    Kell, D.B.7
  • 21
    • 71549136460 scopus 로고    scopus 로고
    • Determination of glucose and ethanol after enzymatic hydrolysis and fermentation of biomass using Raman spectroscopy
    • Shih CJ, Smith EA. Determination of glucose and ethanol after enzymatic hydrolysis and fermentation of biomass using Raman spectroscopy. Anal Chim Acta. 2009;653:200-206.
    • (2009) Anal Chim Acta , vol.653 , pp. 200-206
    • Shih, C.J.1    Smith, E.A.2
  • 22
    • 0034914239 scopus 로고    scopus 로고
    • Monitoring a bioprocess for ethanol production using FT-MIR and FT-Raman spectroscopy
    • Sivakesava S, Irudayaraj J, Demirci A. Monitoring a bioprocess for ethanol production using FT-MIR and FT-Raman spectroscopy. J Ind Microbiol Biotechnol. 2001;26:185-190.
    • (2001) J Ind Microbiol Biotechnol , vol.26 , pp. 185-190
    • Sivakesava, S.1    Irudayaraj, J.2    Demirci, A.3
  • 23
    • 0035165215 scopus 로고    scopus 로고
    • Simultaneous determination of multiple components in lactic acid fermentation using FT-MIR, NIR, and FT-Raman spectroscopic techniques
    • Sivakesava S, Irudayaraj J, Ali D. Simultaneous determination of multiple components in lactic acid fermentation using FT-MIR, NIR, and FT-Raman spectroscopic techniques. Process Biochem. 2001;37:371-378.
    • (2001) Process Biochem , vol.37 , pp. 371-378
    • Sivakesava, S.1    Irudayaraj, J.2    Ali, D.3
  • 24
    • 2342499985 scopus 로고    scopus 로고
    • In situ bioprocess monitoring of Escherichia coli bioreactions using Raman spectroscopy
    • Lee HL, Boccazzi P, Gorret N, Ram RJ, Sinskey AJ. In situ bioprocess monitoring of Escherichia coli bioreactions using Raman spectroscopy. Vib Spectrosc. 2004;35:131-137.
    • (2004) Vib Spectrosc , vol.35 , pp. 131-137
    • Lee, H.L.1    Boccazzi, P.2    Gorret, N.3    Ram, R.J.4    Sinskey, A.J.5
  • 25
    • 84872367736 scopus 로고    scopus 로고
    • Raman spectroscopy and chemometrics for on-line control of glucose fermentation by Saccharomyces cerevisiae
    • Ávila TC, Poppi RJ, Lunardi I. Raman spectroscopy and chemometrics for on-line control of glucose fermentation by Saccharomyces cerevisiae. Biotechnol Prog. 2012;28:1598-1604.
    • (2012) Biotechnol Prog , vol.28 , pp. 1598-1604
    • Ávila, T.C.1    Poppi, R.J.2    Lunardi, I.3
  • 26
    • 84876751674 scopus 로고    scopus 로고
    • Real-time monitoring of high-gravity corn mash fermentation using in situ raman spectroscopy
    • Gray SR, Peretti SW, Lamb HH. Real-time monitoring of high-gravity corn mash fermentation using in situ raman spectroscopy. Biotechnol Bioeng. 2013;110:1654-1662.
    • (2013) Biotechnol Bioeng , vol.110 , pp. 1654-1662
    • Gray, S.R.1    Peretti, S.W.2    Lamb, H.H.3
  • 28
    • 84867405067 scopus 로고    scopus 로고
    • In situ Raman spectroscopy for simultaneous monitoring of multiple process parameters in mammalian cell culture bioreactors
    • Whelan J, Craven S, Glennon B. In situ Raman spectroscopy for simultaneous monitoring of multiple process parameters in mammalian cell culture bioreactors. Biotechnol Prog. 2012;28:1355-1362.
    • (2012) Biotechnol Prog , vol.28 , pp. 1355-1362
    • Whelan, J.1    Craven, S.2    Glennon, B.3
  • 29
    • 84883555277 scopus 로고    scopus 로고
    • Performance monitoring of a mammalian cell based bioprocess using Raman spectroscopy
    • Li B, Ray BH, Leister KJ, Ryder AG. Performance monitoring of a mammalian cell based bioprocess using Raman spectroscopy. Anal Chim Acta. 2013;796:84-91.
    • (2013) Anal Chim Acta , vol.796 , pp. 84-91
    • Li, B.1    Ray, B.H.2    Leister, K.J.3    Ryder, A.G.4
  • 30
    • 84897841208 scopus 로고    scopus 로고
    • Glucose concentration control of a fed-batch mammalian cell bioprocess using a nonlinear model predictive controller
    • Craven S, Whelan J, Glennon B. Glucose concentration control of a fed-batch mammalian cell bioprocess using a nonlinear model predictive controller. J Process Control. 2014;24:344-357.
    • (2014) J Process Control , vol.24 , pp. 344-357
    • Craven, S.1    Whelan, J.2    Glennon, B.3
  • 31
    • 84876700018 scopus 로고    scopus 로고
    • Robust on-line sampling and analysis during long-term perfusion cultivation of mammalian cells
    • Chong L, Saghafi M, Knappe C, Steigmiller S, Matanguihan C, Goudar CT. Robust on-line sampling and analysis during long-term perfusion cultivation of mammalian cells. J Biotechnol. 2013;165:133-137.
    • (2013) J Biotechnol , vol.165 , pp. 133-137
    • Chong, L.1    Saghafi, M.2    Knappe, C.3    Steigmiller, S.4    Matanguihan, C.5    Goudar, C.T.6
  • 32
    • 76849117155 scopus 로고    scopus 로고
    • Cell culture monitoring via an auto-sampler and an integrated multi-functional off-line analyzer
    • Derfus GE, Abramzon D, Tung M, Chang D, Kiss R, Amanullah A. Cell culture monitoring via an auto-sampler and an integrated multi-functional off-line analyzer. Biotechnol Prog. 2010;26:284-292.
    • (2010) Biotechnol Prog , vol.26 , pp. 284-292
    • Derfus, G.E.1    Abramzon, D.2    Tung, M.3    Chang, D.4    Kiss, R.5    Amanullah, A.6
  • 33
    • 0042553279 scopus 로고
    • Smoothing and differentiation of data by simplified least squares procedures
    • Savitzky A, Golay MJE. Smoothing and differentiation of data by simplified least squares procedures. Anal Chem. 1964;36:1627-1639.
    • (1964) Anal Chem , vol.36 , pp. 1627-1639
    • Savitzky, A.1    Golay, M.J.E.2
  • 34
    • 71249149458 scopus 로고    scopus 로고
    • Review of the most common pre-processing techniques for near-infrared spectra
    • Rinnan Å, van den Berg F, Engelsen SB. Review of the most common pre-processing techniques for near-infrared spectra. Trends Anal Chem. 2009;28:1201-1222.
    • (2009) Trends Anal Chem , vol.28 , pp. 1201-1222
    • Rinnan, A.1    van den Berg, F.2    Engelsen, S.B.3
  • 36
    • 71549117923 scopus 로고    scopus 로고
    • A Bootstrap-VIP approach for selecting wavelength intervals in spectral imaging applications
    • Gosselin R, Rodrigue D, Duchesne C. A Bootstrap-VIP approach for selecting wavelength intervals in spectral imaging applications. Chemometr Intell Lab Syst. 2010;100:12-21.
    • (2010) Chemometr Intell Lab Syst , vol.100 , pp. 12-21
    • Gosselin, R.1    Rodrigue, D.2    Duchesne, C.3
  • 37
    • 0242498775 scopus 로고    scopus 로고
    • Automated method for subtraction of fluorescence from biological Raman spectra
    • Lieber CA, Mahadevan-Jansen A. Automated method for subtraction of fluorescence from biological Raman spectra. Appl Spectrosc. 2003;57:1363-1367.
    • (2003) Appl Spectrosc , vol.57 , pp. 1363-1367
    • Lieber, C.A.1    Mahadevan-Jansen, A.2
  • 38
    • 36049009054 scopus 로고    scopus 로고
    • Automated autofluorescence background subtraction algorithm for biomedical Raman spectroscopy
    • Zhao J, Lui H, Mclean DI, Zeng H. Automated autofluorescence background subtraction algorithm for biomedical Raman spectroscopy. Appl Spectrosc. 2007;61:1225-1232.
    • (2007) Appl Spectrosc , vol.61 , pp. 1225-1232
    • Zhao, J.1    Lui, H.2    Mclean, D.I.3    Zeng, H.4
  • 39
    • 67149108592 scopus 로고    scopus 로고
    • Method for automated background subtraction from Raman spectra containing known contaminants
    • Beier BD, Berger AJ. Method for automated background subtraction from Raman spectra containing known contaminants. Analyst. 2009;134:1198-1202.
    • (2009) Analyst , vol.134 , pp. 1198-1202
    • Beier, B.D.1    Berger, A.J.2
  • 40
    • 33845960535 scopus 로고    scopus 로고
    • Raman spectra of biological samples: a study of preprocessing methods
    • Afseth NK, Segtnan VH, Wold JP. Raman spectra of biological samples: a study of preprocessing methods. Appl Spectrosc. 2006;60:1358-1367.
    • (2006) Appl Spectrosc , vol.60 , pp. 1358-1367
    • Afseth, N.K.1    Segtnan, V.H.2    Wold, J.P.3

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.