Austria Centre for Industrial Biotechnology, Vienna, Austria.
Department of Biotechnology, University of Natural Resources and Life Sciences, Muthgasse 18, A-1190, Vienna, Austria.
Biotechnol J. 2019 Aug;14(8):e1800646. doi: 10.1002/biot.201800646. Epub 2019 Apr 23.
Continuous virus inactivation (VI) remains one of the missing pieces while the biopharma industry moves toward continuous manufacturing. The challenges of adapting VI to the continuous operation are two-fold: 1) achieving fluid homogeneity and 2) a narrow residence time distribution (RTD) for fluid incubation. To address these challenges, a dynamic active in-line mixer and a packed-bed continuous virus inactivation reactor (CVIR) are implemented, which act as a narrow RTD incubation chamber. The developed concept is applied using solvent/detergent (S/D) treatment for inactivation of two commonly used model viruses. The in-line mixer is characterized and enables mixing of the viscous S/D chemicals to ±1.0% of the target concentration in a small dead volume. The reactor's RTD is characterized and additional control experiments confirm that the VI is due to the S/D action and not induced by system components. The CVIR setup achieves steady state rapidly before two reactor volumes and the logarithmic reduction values of the continuous inactivation process are identical to those obtained by the traditional batch operation. The packed-bed reactor for continuous VI unites fully continuous processing with very low-pressure drop and scalability.
连续病毒灭活 (VI) 仍然是生物制药行业向连续制造迈进时缺失的环节之一。将 VI 适应连续操作的挑战有两方面:1)实现流体均一性和 2)流体孵育的窄停留时间分布 (RTD)。为了解决这些挑战,采用动态主动在线混合器和填充床连续病毒灭活反应器 (CVIR),它们充当窄 RTD 孵育室。使用溶剂/去污剂 (S/D) 处理来灭活两种常用的模型病毒来应用开发的概念。对在线混合器进行了表征,使其能够将粘性 S/D 化学品混合至目标浓度的±1.0%,混合死体积很小。对反应器的 RTD 进行了表征,并且附加的控制实验证实 VI 是由于 S/D 作用而不是系统组件引起的。CVIR 装置在两个反应器体积之前迅速达到稳定状态,并且连续灭活过程的对数减少值与传统批处理操作获得的值相同。用于连续 VI 的填充床反应器将完全连续处理与非常低的压降和可扩展性结合在一起。
