How to improve cell counting processes for accurate cell characterization
Guidance on improving the quality of cell counting results to increase confidence amongst the inherent challenges when working with live cells.
Guidance on improving the quality of cell counting results to increase confidence amongst the inherent challenges when working with live cells.
For many other types of measurement, close agreement between instruments is achieved by calibration to a reference standard. Some examples include the calibration of a group of analytical balances to a single reference mass and calibration of pH meters to a precisely prepared buffer solution.
Monoclonal cell culture is critical for many research areas however, the process to establish monoclonal cell lines is time-consuming, and many methods used to monitor monoclonality of cell culture still rely on manual and low-throughput methods.
Many factors and considerations must be optimized to develop the appropriate cell-based assays for gene therapy development.
Watch our demo on-demand and discover a better way to count cells with the next-generation high-throughput cell counter!
The microneutralization assay is a powerful, high-throughput screening tool crucial to the efficient development of novel vaccines and the discovery of compounds that can prevent or treat viral disease.
Accurate counting and qualification of cells during the workflow of the single cell sequencing is essential to determine number of cells.
Cellometer automated cell counters have been facilitating CAR T manufacturing with accurate cell counting and analysis since 2010.
Celigo Imaging Cytometer demonstrated the utility of automation in the development and monitoring of new CHO-based cell lines for increasing efficiency in cell line development.