生物过程
生物制药
过程分析技术
过程(计算)
生化工程
上游(联网)
拉曼光谱
质量(理念)
过程控制
工艺工程
纳米技术
医药制造业
制造工程
工程类
计算机科学
设计质量
系统工程
下游(制造业)
生物技术
材料科学
物理
运营管理
光学
操作系统
生物
电信
量子力学
生物信息学
化学工程
作者
Karen A. Esmonde‐White,Maryann Cuellar,Ian R. Lewis
标识
DOI:10.1007/s00216-021-03727-4
摘要
Abstract Biopharmaceuticals have revolutionized the field of medicine in the types of active ingredient molecules and treatable indications. Adoption of Quality by Design and Process Analytical Technology (PAT) frameworks has helped the biopharmaceutical field to realize consistent product quality, process intensification, and real-time control. As part of the PAT strategy, Raman spectroscopy offers many benefits and is used successfully in bioprocessing from single-cell analysis to cGMP process control. Since first introduced in 2011 for industrial bioprocessing applications, Raman has become a first-choice PAT for monitoring and controlling upstream bioprocesses because it facilitates advanced process control and enables consistent process quality. This paper will discuss new frontiers in extending these successes in upstream from scale-down to commercial manufacturing. New reports concerning the use of Raman spectroscopy in the basic science of single cells and downstream process monitoring illustrate industrial recognition of Raman’s value throughout a biopharmaceutical product’s lifecycle. Finally, we draw upon a nearly 90-year history in biological Raman spectroscopy to provide the basis for laboratory and in-line measurements of protein quality, including higher-order structure and composition modifications, to support formulation development. Graphical abstract
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