Frost & Sullivan's executive brief, Key Trends Reshaping the Future of Bio-pharmaceutical Harvest & Clarification, offers insights into high-performance technology platforms. It examines the impact of process interdependencies on cell H&C, identifies the process design challenges and the limitations of the current H&C technologies, and recommends new H&C strategies to enable overall process robustness.
To download the complimentary executive brief, please visit: www.frost.com/harvestclarification.
"The key goal for the process developer is to achieve maximum product recovery and contaminant removal with the fewest number of processing steps," explained Nitin Naik, Life Sciences Global Vice President at Frost & Sullivan. "Currently, manufacturers aim for 10 g/L product titer with cell densities > 20 × 106 cells/mL. However, cell viability at the time of clarification can vary from 80+ % to less than 50% depending on the specific cell culture strategy, resulting in high variability of cell debris and colloid content, thus challenging platform approaches to the H&C part of the process. Commonly used technologies such as multi?stage depth filtration, tangential flow microfiltration (TFF-MF), and centrifugation followed by depth filtration were retrofitted from legacy industrial applications and have low reproducibility, capacity, and significant product loss."
"An effective next-generation H&C approach will utilize an integrated strategy that optimizes the use of current technologies, as well as introduces new clarification principles," noted Alexei Voloshin, Global Application Manager at 3M. "Combination of low cell shear approaches, such as highly porous open depth filters to capture cells without rupture, and advanced chromatographic clarification technologies to capture a wide range of cell debris and key soluble contaminants, enable platform ability through consistent clearance of particles in a very wide size range using multiple orthogonal mechanisms. This enables consistent performance of downstream chromatography capture and polishing train across the product candidate pipeline, decreasing the time-to-clinic and increasing the manufacturing efficiency at commercial scale. The result is lower manufacturing cost with increased process performance and robustness."
3M presents innovative products that combine advanced materials to support H&C strategies. Novel technologies are critical for enhanced H&C since:
- High cell density fluids result in increased cell shear and fragmentation, even though TFF–MF processes are often designed to minimize the rupture and fragmentation of cells in the recirculation loop. As a result, a secondary clarification depth filter may be required after TFF-MF to reduce the small-particle load before sterile MF.
- Despite the presence of multiple linked stages within H&C to achieve product clarity, each unit operation increases product loss in the process.Improved titers challenge legacy facilities, as their architecture and technology choices are optimized for low cell density, low titer processes.
Contact:Mariana FernandezCorporate CommunicationsP: +1 210 348 1012E: [email protected]http://ww2.frost.com
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SOURCE Frost & Sullivan