Development of Effective Risk Mitigation Strategy for Cell Culture Process of Recombinant Protein Production

Yuanita Kumala Dewi, Putu Dana Karningsih

Abstract


Microbial contamination, instability in production yields and cell lines are the challenges that must be faced by any pharmaceutical biotechnology industry when conducting cell culture as one of the stages of its production process. In the past, Company X has experienced twice contamination cases during cell culture process for its recombinant protein products. As a result, Company X suffered financial lossess at approximately 3.05 billion rupiah and resulted in disruption of the stock of recombinant protein drug which are the active pharmaceutical ingredient for most of injection products. Therefore, an effective mitigation strategies are needed to manage any potential risks in the cell culture process. This study aims to design a risk mitigation strategy for risk in cell culture process by using House of Risk (HOR) method. There are two HOR matrices used in this study. HOR1 is used to determine which risk agents should be prioritized for prevention. In HOR2, several effective risk management strategies will be chosen. There are 40 risks events and 31 risk agents identified. Based on risk assessment results and applying Pareto Chart analysis there are two risk agents selected. Five proactive actions to mitigate these risks are proposed. They are training and personnel qualification program periodically, changing workflow become more efficient and convenient, more detailed revision of related documents, changing manual process to semi-automatic process gradually and additional person on each team as a verifier for double-checking.

Keywords


HOR1; HOR2; House of Risk; Risk Mitigation

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References


Chu, Lily, and Robinson D. K., "Industrial Choices for Protein Production by Large-scale Cell Culture," Current Opinion in Biotechnology, Vol. 12, pp. 180-187, 2001.

Wang, M. D., Yang, M., Huzel, N., dan Butler, M., "Erythropoietin Production from CHO Cells Grown by Continuous Culture in a Fluidized-bed Bioreactor," Biotechnology and Bioengineering, Vol. 77, pp. 194-203, 2002.

Freshney, R. I., Culture of Animal Cell, A Manual of Basic Technique and Specialized Applications, 6th Edition, Hoboken, New Jersey : A John Wiley & Sons, Inc., 2010.

Croughan, M., Delfosse, S., and Svay, K., "Microbial contamination in industrial animal cell culture operations," Pharmaceutical Bioprocessing, Vol. 2, pp. 23–25, 2014.

Pujawan, Nyoman, and Geraldin, Laudine, "House of Risk: a Model for Proactive Supply Chain Risk Management," Business Process Management Journal , Vol. 15, pp. 953-967, 2009.

Karningsih P.D., Anggrahini, D., Kurniati, N., Suef, N., Fachrur, A.R.,and Syahroni, N., “Mapping Risks of Indonesian Tuna Supply Chain”, IOP Conf. Ser.: Mater. Sci. Eng. 337, 2018.

Dewi, D. S., Syairudin, B., dan Nikmah, E. N., "Risk Management in New Product Development Process for Fashion Industry: Case Study in Hijab Industry," in Proceeding Industrial Engineering and Service Science, Surabaya, 2015.

Purwandono, D. K. dan Pujawan, I. N., " Aplikasi Model House of Risk (HOR) Untuk Mitigasi Risiko Proyek Pembangunan Jalan Tol Gempol-Pasuruan," in Proceeding Seminar Nasional Manajemen Teknologi XI, Surabaya, 2010.




DOI: http://dx.doi.org/10.12962/j23546026.y2020i3.11071

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