Measuring binding kinetics in complex samples to support biologics development

A major challenge faced in the field of biologics drug discovery is the long and labor-intensive workflows needed for identification and validation of potential therapeutics.

Creoptix, a Malvern Panalytical brand, has developed the WAVEsystem to support scientists in life sciences to accelerate drug discovery. The grating-coupled interferometry (GCI) detection principle provides a stable signal, ideal for measuring tight binding interactions. In combination with no-clog WAVEchips and waveRAPID (a new method of measuring kinetics from single well), the Creoptix^® WAVEsystem can substantially shorten and/or combine different steps in the workflow.

In this webinar, Amanda Poon, Application Scientist at Malvern Panalytical, working for Creoptix, and Dr. Wu Danqing, Director of Biologics Discovery at EpimAb Biotherapeutics, will discuss how the WAVEsystem supports biologics research by allowing you to measure high-quality binding affinity and kinetics in complex samples.

Key learning objectives

Learn the importance of reliable molecular binding characterization, including binding kinetics, in antibody development
Understand how the WAVEsystem combines high sensitivity and signal stability with crude sample compatibility and throughput to accelerate your biologics development
Discover how no-clog microfluidics allows you to measure binding kinetics in complex samples (serum, cell lysates and more) with less device downtime

Who should attend?

Anyone interested in measuring binding kinetics and affinity in biologics and other complex matrices
Research and development scientists interested in biologic drug development
Scientists interested in diagnostics development
Researchers facing challenges on tight binders (pM) in unpurified samples
Anyone interested in antibody research and development

Certificate of attendance

All webinar participants can request a certificate of attendance, including a learning outcomes summary, for continuing education purposes.