Inline Conditioning Process Chromatography
Inline conditioning chromatography systems are highly advanced technologies that has become an integral part of ensuring the safety, purity, and efficacy of biotherapeutics. These systems offer numerous advantages over traditional chromatography methods, including increased productivity, improved efficiency, and reduced operational costs. Lisure's Inline conditioning process chromatography (ICPC) systems are equipped with sophisticated sensors and controls that facilitate real-time monitoring and adjustment of critical parameters for automated preparation of buffer solutions that goes directly into the column for equilibration, loading, elution, wash and regeneration. This level of automation ensures consistent and reproducible results, minimizing batch-to-batch variability and maximizing product quality. Overall, ICPC systems represent a cutting-edge solution for the purification of biomolecules in bioprocessing. Their integration of multiple purification steps, coupled with advanced monitoring and control capabilities, significantly enhance the efficiency, productivity, and outcomes of bioprocessing operations.
Improved Productivity
Reduced Costs
Enhanced process control
Flexibility & Scalability
Simplified Operation
Reduced Footprint
Improved productivity: faster processing times and higher throughput, ultimately leading to increased production capacity.
Reduced costs: fast buffer stabilization time making it a more economical option for large-scale production.
Enhanced process control: provide real-time monitoring and control of the chromatography process. This ensures consistent product quality and minimizes the risk of product contamination or deviation from desired specifications.
Flexibility and scalability: can be easily integrated into existing bioprocessing facilities, allowing for seamless scalability and flexibility. They can be adapted to various process formats, including batch, fed-batch, and continuous modes.
Simplified operation: user-friendly interfaces and automation capabilities, simplifying operation, minimizes the potential for human errors, improving overall process reliability.
Reduced footprint: compact designs, requiring less physical space compared to traditional chromatography setups.