生物治疗制剂超滤过程中洗涤剂/表面活性剂的保留。

IF 2.5 3区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Biotechnology Progress Pub Date : 2025-02-19 DOI:10.1002/btpr.70011

Liang-Kai Chu, Zhuoshi Du, Matthew Billups, Hee Jeung Oh, Andrew L Zydney

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引用次数: 0

摘要

表面活性剂如聚山梨酸酯（Tween®）通常用作单克隆抗体和其他重组蛋白生产的辅料。由于单体和胶束的存在，这些赋形剂在最后超滤步骤中的保留行为很难预测。本研究考察了聚山梨酸酯在通过纤维素和聚醚砜膜进行超滤时的保留情况，其标称分子量分别为10、30和100 kDa。采用新的通量步进实验研究了浓度极化对表面活性剂透射率的影响。聚山梨酸酯20通过30 kDa膜的透射率是表面活性剂浓度的强烈函数，从2.5 mg/L溶液的近100%下降到

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Detergent/surfactant retention during ultrafiltration in the formulation of biotherapeutics.

Surfactants like polysorbate (Tween®) are commonly used as excipients in the production of monoclonal antibodies and other recombinant proteins. The retention behavior of these excipients in the final ultrafiltration step can be difficult to predict due to the presence of both monomers and micelles. This study examined the retention of polysorbate during ultrafiltration through cellulose and polyethersulfone membranes with nominal molecular weight cutoffs of 10, 30, and 100 kDa. Novel flux stepping experiments were performed to examine the effects of concentration polarization on surfactant transmission. Polysorbate 20 transmission through the 30 kDa membrane was a strong function of the surfactant concentration, decreasing from nearly 100% for a 2.5 mg/L solution to <10% for a 50 mg/L solution due to high retention of the micelles. Polysorbate transmission was lower for the polyethersulfone membrane due to polysorbate adsorption. A simple mathematical model was developed to describe the polysorbate transmission accounting for the effects of concentration polarization as well as the presence of surfactant monomers and micelles. Model calculations were in good agreement with the experimental data, providing a framework for the analysis and design of ultrafiltration/diafiltration processes for biopharmaceutical formulations containing surfactants.

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来源期刊

Biotechnology Progress 工程技术-生物工程与应用微生物

CiteScore

6.50

自引率

3.40%

发文量

审稿时长

4 months

期刊介绍： Biotechnology Progress , an official, bimonthly publication of the American Institute of Chemical Engineers and its technological community, the Society for Biological Engineering, features peer-reviewed research articles, reviews, and descriptions of emerging techniques for the development and design of new processes, products, and devices for the biotechnology, biopharmaceutical and bioprocess industries. Widespread interest includes application of biological and engineering principles in fields such as applied cellular physiology and metabolic engineering, biocatalysis and bioreactor design, bioseparations and downstream processing, cell culture and tissue engineering, biosensors and process control, bioinformatics and systems biology, biomaterials and artificial organs, stem cell biology and genetics, and plant biology and food science. Manuscripts concerning the design of related processes, products, or devices are also encouraged. Four types of manuscripts are printed in the Journal: Research Papers, Topical or Review Papers, Letters to the Editor, and R & D Notes.