Adeno-associated viruses (AAVs) have transformed gene therapies by enabling the targeted delivery of curative genetic payloads. As parenterally administered drugs, gene therapies must undergo the same rigorous safety testing required by the FDA for protein therapeutics. This includes characterizing the stability of the AAV vector by monitoring the formation of subvisible particles (SVPs) that can also lead to adverse immunogenic events. However, the amount of AAV material available is limited as it is expensive, time-consuming, and labor-intensive to produce.
Aura GT™ platform is the first ultra-low volume, subvisible particle analysis system that quantitates and identifies AAV aggregates with as little as 5 µL, for significant precious sample savings compared to flow imaging methods.
Subvisible Particle Counts Are an Indicator of AAV Stability
Subvisible particle measurements are a stability predictor that minimizes risk and enables more informed decisions about viral vector formulations and quality assessment. Backgrounded Membrane Imaging (BMI) on Aura GT system detects how parameters like freeze-thaw cycles, ionic strength, and different additives influence AAV vector stability to determine optimal formulation and storage conditions for your gene therapy product.