Halo Labs, a life science instrumentation company developing tools for biologics researchers, today announced it has launched its latest product, Aura GT.
Aura GT is part of the next generation in Halo Labs' popular family of instruments. Using Backgrounded Membrane Imaging (BMI) and Fluorescence Membrane Microscopy (FMM), Aura GT can distinguish aggregated capsids from contaminants, carrier proteins, and other particles that might adversely harm patients. Unique to Aura GT is the fact that it can also identify DNA leakage in gene therapy products so the mechanism of aggregation can be determined and corrected.
Aura GT is going to completely revolutionize gene therapy product development. Gene therapy products are inherently unstable, which is a huge challenge. Up until now, there has been no effective way to correlate capsid aggregation with DNA leakage or empty and full capsids, In one assay, Aura GT can quantify capsid aggregates, distinguish them from protein aggregates, and determine if the aggregation is exacerbated by DNA leaking.
- Bernardo Cordovez, Chief Science Officer at Halo Labs.
We are very excited to be launching our second instrument this year specifically developed for the cell and gene therapy market, Halo Labs has quickly become a leader in gene therapy analytics because we can answer many questions with very little volume. While other subvisible particle analyzers only do one thing, Aura systems offer a complete multi-assay platform that can be used to fully characterize gene therapy products from early development through lot release.
- Rick Gordon, CEO of Halo Labs.
About Halo Labs
Halo Labs in Burlingame, CA is a venture-backed scientific instrumentation and consumable company that commercializes high throughput biopharmaceutical formulation, stability, and product quality control tools for aggregate and subvisible particle analysis using state-of-the-art custom optics and image processing techniques. Biopharmaceutical companies around the globe depend on Halo Labs for unprecedented insights into their drug products.