Efficient T-cell engineering is crucial for the success of CAR T-cell therapy research, but it requires multiple labor-intensive steps, including T-cell isolation, activation, and transduction.

The University of Manchester's Centre of Excellence in Biopharmaceuticals (COEBP) has developed a biopharmaceutical manufacturing platform that allows rapid isolation of high-producing CHO cell ...

Cell therapy manufacturing has long been constrained by manual bottlenecks - steps that are labor-intensive, variable, and difficult to scale. Robotic automation is increasingly becoming key to ...

Cell isolation and activation are critical for cell therapy development and manufacturing. Ease of use, regulatory compliant and financial sustainability are among the most important considerations.

How do you currently identify and select cells for further growth, characterization and processing? Many available cell-selection technologies lack the sensitivity necessary to preserve cell health ...

In this interview, industry experts Mathieu Bennet and Dustin Whitson explore how automation and single-cell technologies are transforming high-throughput B-cell cloning for antibody discovery. Can ...