Validation of the performance and suitability of a new class of FBS optimized for use in single-cell functional assays.

The use of conventional serum for supplementation of media in cell-based and single-cell functional assays has been a major challenge for assay performance, standardization, optimization, and reproducibility. It has been identified as the leading cause of variability and suboptimal performance in large, international Elispot proficiency panels (Janetzki et al., 2008; Rountree et al., 2016). Extensive pretesting and optimization activities are one approach to overcome these challenges, but they are time-consuming and resource-intensive because suitable lots of serum are difficult to identify and secure in sufficient quantities to provide stability in long-term studies. Advancements in manufacturing methods have resulted in a new class of serum with the potential to solve these challenges. An IFNɣ Elispot study was designed by the External Quality Assurance Program Oversight Laboratory (EQAPOL) at Duke Human Vaccine Institute's (DHVI) Immunology and Virology Quality Assessment Center (IVQAC) to test this new class of serum against their in-house, validated control serum, which is regarded as a global standard in performance for high functionality, recovery, and viability. Commonly used serum-free media were also included in the study. The results of this study compellingly demonstrate that this new class of serum produces high responses and low background reactivity comparable to the included serum standard, with excellent recovery and viability of cells. A protocol for ongoing testing has been developed to continuously validate new batches of this serum with the goal to make available to the field a pretested and validated serum that can be used with confidence in functional cell-based assays.

Duke Scholars

Author Guido Ferrari Surgery, Surgical Sciences

Author Thomas Norton Denny Medicine, Duke Human Vaccine Institute