商业化
医药制造业
供应链
灵活性(工程)
设计质量
工艺工程
制造工程
制药工业
质量(理念)
活性成分
生产(经济)
业务
计算机科学
连续生产
下游(制造业)
工程类
营销
生物技术
宏观经济学
经济
哲学
认识论
统计
环境工程
生物
生物信息学
数学
作者
Christopher J. Testa,Chuntian Hu,Khrystyna Shvedova,Wei Wu,Ridade Sayin,Federica Casati,Bhakti S. Halkude,Paul Hermant,Dongying Erin Shen,Anjana Ramnath,Qinglin Su,Stephen C. Born,Bayan Takizawa,Saptarshi Chattopadhyay,Thomas O’Connor,Xiaochuan Yang,Sukumar Ramanujam,Salvatore Mascia
标识
DOI:10.1021/acs.oprd.0c00383
摘要
The pharmaceutical industry faces multiple challenges (e.g., inefficient manufacturing techniques, quality control issues, and supply chain vulnerabilities) because of its current batch-wise approach to manufacturing. Recent regulatory support for continuous manufacturing and advances in continuous process technologies have caused an increase in interest from some drug manufacturers to modernize their production processes. However, many of these companies have focused on hybrid processes, where only certain steps are continuous, while others remain batch. Herein, the quality by design (QbD)-based design strategy and operation of an end-to-end integrated continuous manufacturing (ICM) pilot plant that produces both small-molecule active pharmaceutical ingredient (API) and oral solid dosages (OSDs) are discussed. Additionally, important quality and economic matters pertaining to scale-up and commercialization are addressed. ICM has significant benefits, including better quality control, increased supply chain flexibility, a lower capital investment (in the example provided, a ∼ 90% reduction), and lower operating costs (in the example provided, a 33.6% reduction for API and 29.4% reduction for tablets).
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