Determination of the immunoglobulin G precipitation end-point by an intelligent near-infrared spectroscopy system

Chen Yu; Shuang Quan; Cui Yang; Chengliang Zhang; Jiajin Fan; Lian Li; Hengchang Zang

doi:10.1142/s1793545821500073

[1] R. B. Nugent, G. A. Lee, "Ophthalmic use of bloodderived products," Surv. Ophthalmol. 60(5), 406–434 (2015).

[2] O. Hermine, B. Lassale, P. Morel, C. M. Samama, G. Follea, M. Monsellier, S. No?l, J. D. Tissot, J. J. Lefrère, "Roundtables of SFTS Congress 2013: Needs, indications and safety of blood products; selfsuffi ciency in blood products," Transfus. Clin. Biol. 21(3), 120–131 (2014).

[3] M. Abonnenc, J. D. Tissot, M. Prudent, "General overview of blood products in vitro quality: Processing and storage lesions," Transfus. Clin. Biol. 25(4), 269–275 (2018).

[4] S. Kim, Q. Park, J. R. Park, H. O. Kim, "International comparison of blood product prices," Kor. J. Blood Transfus. 20(2), 75–83 (2009).

[5] M. R. Doran, I. A. Aird, F. Marturana, N. Timmins, K. Atkinson, L. K. Nielsen, "Bioreactor for blood product production," Cell Transplant. 21(6), 1235– 1244 (2012).

[6] Z. Wang, X. Zhao, M. Lv, J. Zhang, "Current status and trends in blood biologicals," Sheng Wu Gong Cheng Xue Bao 27(5), 730–746 (2011).

[7] A. A. Nguyen, S. B. Habiballah, C. D. Platt, R. S. Geha, J. S. Chou, D. R. McDonald, "Immunoglobulins in the treatment of COVID-19 infection: Proceed with caution!," Clin. Immunol. 216, 108459 (2020).

[8] E. J. Cohn, L. E. Strong, W. L. Hughes, D. J. Mulford, J. N. Ashworth, M. Melin, H. L. Taylor, "Preparation and properties of serum and plasma proteins: IV: A system for the separation into fractions of the protein and lipoprotein components of biological tissues and fluids," J. Am. Chem. Soc. 68, 459–475 (1946).

[9] E. J. Cohn, W. L. Hughes, Jr., J. H. Weare, "Preparation and properties of serum and plasma proteins; crystallization of serum albumins from ethanol water mixtures," J. Am. Chem. Soc. 69(7), 1753–1761 (1947).

[10] C. Undey, D. Low, J. Menezes, M. Koch (Eds.), PAT Applied in Biopharmaceutical Process Development and Manufacturing: An Enabling Tool for Quality-by-Design, Biotechnology and Bioprocessing Series, Vol. 33, CRC Press, Boca Raton (2012).

[11] Z. Chen, D. Lovett, J. Morris, "Process analytical technologies and real time process control a review of some spectroscopic issues and challenges," J. Process Control 21(10), 1467–1482 (2011).

[12] C. Busse, P. Biechele, I. de Vries, K. F. Reardon, D. Solle, T. Scheper, "Sensors for disposable bioreactors," Eng. Life Sci. 17(8), 940–952 (2017).

[13] H. Wang, R. Liu, L. Nie, D. Xu, W. Yin, L. Li, H. Zang, "Spectra selection methods: A novel optimization way for treating dynamic spectra and inline near infrared modeling," J. Innov. Opt. Health Sci. 13(4), 2050015 (2020).

[14] C. Li, F. Wang, L. Zang, H. Zang, M. Alcalà, L. Nie, M. Wang, L. Li, "Near infrared spectroscopy combined with multivariate analysis for monitoring the ethanol precipitation process of fraction I+II+III supernatant in human albumin separation," Spectrochim. Acta A, Mol. Biomol. Spectrosc. 175, 17–23 (2017).

[15] H. Zhang, A. Liu, H. Zang, H. Li, W. Jiang, L. Li, J. Wang, "Rapid determination of immunoglobulin G concentration in cold ethanol precipitation process of raw plasma with near-infrared spectroscopy," Spectrochim. Acta A, Mol. Biomol. Spectrosc. 116, 370–373 (2013).

[16] K. Esbensen, B. Swarbrick, "Sampling for spectroscopic analysis: Consequences for multivariate calibration," Spectrosc. Europe 31(6), 22–28 (2019).

[17] ?. Rinnan, F. van den Berg, S. B. Engelsen, "Review of the most common pre-processing techniques for near-infrared spectra," TrAC Trends Anal. Chem. 28(10), 1201–1222 (2009).