Assessment of Tunable Resistive Pulse Sensing (TRPS) Technology for Particle Size Distribution in Vaccine Formulations – A Comparative Study with Dynamic Light Scattering

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-04-22 DOI:10.1007/s11095-024-03698-y

Rahul Misra, Ginny Fung, Siddhant Sharma, Jian Hu, Marina Kirkitadze

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Abstract

Purpose

A comparative assessment was performed to evaluate the potential of particle sizing by an ensemble based conventional dynamic light scattering (DLS) technique and an emerging technology based on tunable resistive pulse sensing (TRPS) using particle by particle approach by evaluating three different types of vaccine formulations representing three case studies and showing the limitation of each technique, instrument variability, sensitivity, and the resolution in mixed population.

Methods

Three types of in-house vaccine formulations- a protein antigen, an outer membrane vesicle and viral particles were simultaneously evaluated by TRPS based Exoid and two DLS instruments-Zetatrac and Zetasizer for particle size distribution, aggregates, and resolution of polydisperse species.

Results

The data from first case study show the risk of possible size overestimation and size averaging in polydisperse samples in DLS measurements which can be addressed by the TRPS analysis. It also shows how TRPS may be utilized only to large size antigens due to its limited size range. The second case study highlights the difference in the sensitivities of two DLS instruments working on the same principle. The third case study show that how TRPS can better resolve the large aggregate species compare to DLS in polydisperse samples.

Conclusion

This analysis shows that TRPS can be used as an orthogonal technique in addition to conventional DLS based methods for more precise and in-depth characterization. Both techniques are efficient in size characterization and produce comparable results, however the choice will depend on the type of formulation and size range to be evaluated.

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评估可调电阻脉冲传感 (TRPS) 技术在疫苗制剂中的粒度分布--与动态光散射法的比较研究

目的通过对代表三个案例研究的三种不同类型的疫苗制剂进行评估，并显示每种技术的局限性、仪器的可变性、灵敏度以及在混合群体中的分辨率，对基于集合的传统动态光散射（DLS）技术和基于可调电阻脉冲传感（TRPS）的新兴技术进行了比较评估。方法采用基于 TRPS 的 Exoid 和两台 DLS 仪器--Zetatrac 和 Zetasizer 同时评估三种内部疫苗制剂--蛋白质抗原、外膜囊泡和病毒颗粒--的粒度分布、聚集体和多分散物种的分辨率。它还表明，由于 TRPS 的粒度范围有限，因此只能用于大粒度抗原。第二个案例研究强调了两种基于相同原理的 DLS 仪器在灵敏度上的差异。第三项案例研究表明，与多分散样品中的 DLS 相比，TRPS 能够更好地分辨大颗粒物种。这两种技术在粒度表征方面都很有效，并能得出相似的结果，但选择哪种技术将取决于要评估的配方类型和粒度范围。

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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