Stability testing of the Pfizer-BioNTech BNT162b2 COVID-19 vaccine: a translational study in UK vaccination centres.

Q1 Medicine
BMJ Open Science Pub Date : 2021-09-12 eCollection Date: 2021-01-01 DOI:10.1136/bmjos-2021-100203
Laila Kudsiova, Alison Lansley, Greg Scutt, Marcus Allen, Lucas Bowler, Sian Williams, Samantha Lippett, Selma Stafford, Michael Tarzi, Michael Cross, Michael Okorie
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引用次数: 13

Abstract

Objective: The roll-out of the Pfizer-BioNTech BNT162b2 COVID-19 vaccine has brought many logistical challenges, such as the absence of comprehensive stability data leading to strict handling instructions during dilution and administration. Accidental mishandling therefore presents challenging clinical dilemmas, which often led vaccine providers to err on the side of caution and discard mishandled vials rather than risk administering ineffective vaccine. This study aims to answer key questions about the vaccine's stability to allow for a more informed decision-making process should a non-conformity occur.

Methods: Residual vaccine in freshly used, but appropriately stored vials collected from vaccination centres in Brighton, UK, were tested after exposure to various handling conditions and analysed by dynamic light scattering to determine the size of the lipid-mRNA nanoparticles, and gel electrophoresis to visualise the mRNA integrity and separation from the lipid formulation.

Results: Knocking or dropping vaccine samples from small heights resulted in lowest levels of instability, indicating low risk of compromising clinical efficacy. However, repeated drawing and injecting through 23 G needles at high speed and, more significantly, shaking and vortexing led to progressive increase in the size and polydispersity index of the lipid-mRNA nanoparticles, coupled with or caused by up to ~50% release of mRNA from the lipid formulation. This is thought to impact the vaccine's efficacy due to lack of free mRNA protection and cellular internalisation.

Conclusions: These results reiterate the importance of adhering to the manufacturer's instructions on handling, especially with regard to shaking and exposing the vaccine to excessive vibration.

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辉瑞- biontech BNT162b2 COVID-19疫苗的稳定性测试:英国疫苗接种中心的转化研究
目的:辉瑞biontech BNT162b2新冠肺炎疫苗的推出带来了许多后勤挑战,例如缺乏全面的稳定性数据,导致稀释和给药过程中严格的操作说明。因此,意外处理不当带来了具有挑战性的临床困境,这往往导致疫苗提供者宁可谨慎行事,丢弃处理不当的小瓶,也不愿冒险接种无效的疫苗。这项研究的目的是回答有关疫苗稳定性的关键问题,以便在发生不符合规定的情况下做出更明智的决策。方法:从英国布莱顿疫苗接种中心收集的新鲜使用但妥善储存的剩余疫苗,在暴露于各种处理条件后进行测试,并通过动态光散射分析以确定脂质-mRNA纳米颗粒的大小,并通过凝胶电泳观察mRNA的完整性和与脂质配方的分离。结果:从小高度敲打或掉落疫苗样本导致最低程度的不稳定性,表明影响临床疗效的风险较低。然而,通过23 G针高速反复拉伸和注射,更明显的是,摇动和涡流导致脂质-mRNA纳米颗粒的大小和多分散指数逐渐增加,同时或由高达50%的mRNA从脂质配方中释放引起。由于缺乏自由mRNA保护和细胞内化,这被认为会影响疫苗的效力。结论:这些结果重申了遵守制造商操作说明的重要性,特别是关于摇晃和将疫苗暴露在过度振动中。
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
BMJ Open Science
BMJ Open Science Medicine-General Medicine
CiteScore
10.00
自引率
0.00%
发文量
9
审稿时长
31 weeks
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