Microbial technologies for biotherapeutics production: Key tools for advanced biopharmaceutical process development and control

Q1 Pharmacology, Toxicology and Pharmaceutics

Drug Discovery Today: Technologies Pub Date : 2020-12-01 DOI:10.1016/j.ddtec.2021.04.001

Denes Zalai , Julian Kopp , Bence Kozma , Michael Küchler , Christoph Herwig , Julian Kager

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引用次数: 7

Abstract

Current trends in the biopharmaceutical market such as the diversification of therapies as well as the increasing time-to-market pressure will trigger the rethinking of bioprocess development and production approaches. Thereby, the importance of development time and manufacturing costs will increase, especially for microbial production.

In the present review, we investigate three technological approaches which, to our opinion, will play a key role in the future of biopharmaceutical production. The first cornerstone of process development is the generation and effective utilization of platform knowledge. Building processes on well understood microbial and technological platforms allows to accelerate early-stage bioprocess development and to better condense this knowledge into multi-purpose technologies and applicable mathematical models. Second, the application of verified scale down systems and in silico models for process design and characterization will reduce the required number of large scale batches before dossier submission. Third, the broader availability of mathematical process models and the improvement of process analytical technologies will increase the applicability and acceptance of advanced control and process automation in the manufacturing scale. This will reduce process failure rates and subsequently cost of goods. Along these three aspects we give an overview of recently developed key tools and their potential integration into bioprocess development strategies.

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生物治疗药物生产的微生物技术:先进生物制药工艺开发和控制的关键工具

生物制药市场目前的趋势，如治疗方法的多样化以及上市时间压力的增加，将引发对生物工艺开发和生产方法的重新思考。因此，开发时间和制造成本的重要性将增加，特别是对于微生物生产。在本综述中，我们研究了三种技术方法，我们认为它们将在未来的生物制药生产中发挥关键作用。流程开发的第一个基石是平台知识的生成和有效利用。在充分理解的微生物和技术平台上构建过程可以加速早期生物过程的开发，并更好地将这些知识浓缩为多用途技术和适用的数学模型。其次，应用经过验证的按比例缩小的系统和用于工艺设计和表征的硅模型将减少在提交档案之前所需的大规模批次数量。第三，数学过程模型的广泛可用性和过程分析技术的改进将增加先进控制和过程自动化在制造规模中的适用性和接受度。这将降低工艺失败率和随后的产品成本。沿着这三个方面，我们给出了最近开发的关键工具及其潜在集成到生物工艺开发战略的概述。

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来源期刊

Drug Discovery Today: Technologies Pharmacology, Toxicology and Pharmaceutics-Drug Discovery

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期刊介绍： Discovery Today: Technologies compares different technological tools and techniques used from the discovery of new drug targets through to the launch of new medicines.