We will explore four efficient approaches to exosome isolation, highlighting their principles, advantages, and limitations. Participants will be equipped with actionable strategies to streamline their exosome workflows and improve experimental outcomes.
Register Now!Exosomes are increasingly recognized as powerful biomarkers and mediators of intercellular communication, driving advances in diagnostics and therapeutic research. However, their isolation remains a critical bottleneck due to challenges in yield, purity, scalability, and workflow efficiency. In this webinar, we will explore four efficient approaches to exosome isolation, highlighting their principles, advantages, and limitations. Attendees will gain practical insights into selecting the most suitable method for their specific applications, whether working with plasma, serum, saliva, or cell culture media. The session will also address key considerations such as sample input, downstream compatibility, and reproducibility. By the end of the webinar, participants will be equipped with actionable strategies to streamline their exosome workflows and improve experimental outcomes.
About The Speaker
Giuseppe Prencipe, PhD
Product Manager, Norgen Biotek
Giuseppe has authored 17 peer-reviewed scientific publications and has extensive research experience in stem cells, immunology, and regenerative medicine. During his academic career, he worked in multiple European research laboratories across Italy, Austria, and Spain, and participated in international collaborations. His research focused on the crosstalk between stem cells and immune cells mediated by extracellular vesicles, investigating the molecular mechanisms underlying EV-mediated cell-to-cell communication and immune regulation.
Passionate about translating science into practical solutions, Giuseppe works at the intersection of R&D and commercial strategy, helping researchers streamline workflows for nucleic acid and exosome analysis. His work focuses on making complex sample processing more efficient, reliable, and accessible for modern molecular biology applications.