Recent progress in drying technologies for improving the stability and delivery efficiency of biopharmaceuticals.

IF 5.3 4区 医学 Q1 PHARMACOLOGY & PHARMACY
Fakhrossadat Emami, Mahsa Keihan Shokooh, Seyed Jamaleddin Mostafavi Yazdi
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引用次数: 6

Abstract

Background: Most biopharmaceuticals are developed in liquid dosage forms that are less stable than solid forms. To ensure the stability of biopharmaceuticals, it is critical to use an effective drying technique in the presence of an appropriate stabilizing excipient. Various drying techniques are available for this purpose, such as freeze drying or lyophilization, spray drying, spray freeze-drying, supercritical fluid drying, particle replication in nonwetting templates, and fluidized bed drying.

Area covered: In this review, we discuss drying technologies and their applications in the production of stable solid-state biopharmaceuticals, providing examples of commercially available products or clinical trial formulations. Alongside this, we also review how different analytical methods may be utilized in the evaluation of aerosol performance and powder characteristics of dried protein powders. Finally, we assess the protein integrity in terms of conformational and physicochemical stability and biological activity.

Expert opinion: With the aim of treating either infectious respiratory diseases or systemic disorders, inhaled biopharmaceuticals reduce both therapeutic dose and cost of therapy. Drying methods in the presence of optimized protein/stabilizer combinations, produce solid dosage forms of proteins with greater stability. A suitable drying method was chosen, and the process parameters were optimized based on the route of protein administration. With the ongoing trend of addressing deficiencies in biopharmaceutical production, developing new methods to replace conventional drying methods, and investigating novel excipients for more efficient stabilizing effects, these products have the potential to dominate the pharmaceutical industry in the future.

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用于提高生物药品稳定性和输送效率的干燥技术的最新进展。
背景:大多数生物药品是以液体剂型开发的,其稳定性不如固体剂型。为了确保生物药品的稳定性,在适当的稳定赋形剂的存在下使用有效的干燥技术是至关重要的。各种干燥技术可用于此目的,如冷冻干燥或冻干,喷雾干燥,喷雾冷冻干燥,超临界流体干燥,颗粒复制在非润湿模板,和流化床干燥。涉及领域:在这篇综述中,我们讨论了干燥技术及其在稳定固态生物制药生产中的应用,并提供了商业产品或临床试验配方的例子。除此之外,我们还回顾了如何使用不同的分析方法来评估干燥蛋白粉的气溶胶性能和粉末特性。最后,我们从构象和物理化学稳定性以及生物活性方面评估了蛋白质的完整性。专家意见:为了治疗感染性呼吸系统疾病或全身性疾病,吸入生物药物减少了治疗剂量和治疗费用。在优化的蛋白质/稳定剂组合存在下的干燥方法,产生具有更大稳定性的固体剂型蛋白质。选择了合适的干燥方法,并根据给蛋白路线对工艺参数进行了优化。随着解决生物制药生产中的缺陷,开发新的方法来取代传统的干燥方法,以及研究新的赋形剂以获得更有效的稳定效果,这些产品有可能在未来主导制药行业。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Pharmaceutical Investigation
Journal of Pharmaceutical Investigation Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
10.20
自引率
9.10%
发文量
49
期刊介绍: Journal of Pharmaceutical Investigation(J. Pharm. Investig.), the official journal of the Korean Society of Pharmaceutical Sciences and Technology, is an international, peer-reviewed journal that covers all pharmaceutical sciences, including engineering, regulatory, physicochemical, biological, and microbiological studies related to the conception, design, production, characterization and evaluation of pharmaceutical products and drug delivery systems. It is a bimonthly journal published in January, March, May, July, September, and November. All manuscript should be creative and informative for pharmaceutical scientists, and should contain advanced knowledge in clear and concise English. Articles in the following categories are published: Research articles, Notes, Information, and Reviews.(Formerly Journal of Korean Pharmaceutical Sciences: ISSN 0259-2347)
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