Bioprocess analyzer make it possible to monitor and optimize bioprocess performance from the raw data generated by the bioprocess
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Bioprocess analyzer |
The demand for a bioprocess analyzer has increased dramatically over the last few years. Developed to provide reliable, fast results, the Cedex Bio Process Analyzer combines photometric and potentiometric analysis to produce accurate results for 22 parameters. This new technology will make it possible to monitor and optimize bioprocess performance from the raw data generated by the bioprocess.
In a bioprocessing lab, an analyzer is essential to track the yield and productivity. Most of the testing is done at the early stages of a therapeutics process, during the supply of plates and early clinical studies. With this analyzer, researchers can easily determine the levels of different metabolites in the media and accelerate process development cycles. The technology can also be used to monitor media at the line of production. The software can provide an accurate and consistent measurement of bioprocess metabolite levels, which is crucial for the optimal production of biotherapeutics.
The bioprocess analyzer measures multiple parameters such as lactate dehydrogenase, a marker of cell death during fermentation. This is a key indicator of the quality of the process. The LDH measurement is typically performed with a 96-well photometric assay. The other measurement method used is the measurement of the product titer, which is used for tracking the yield and productivity during protein purification processes. Traditionally, these measurements are carried out using enzyme membrane-based techniques. However, these methods have their drawbacks, including poor sensitivity, poor accuracy, and poor sample quality. The analyzer can be a valuable tool for protein purification and fermentation processes. It can measure a wide variety of metrics, including titers and lactate dehydrogenase. In addition to titer, the analyzer can also measure lactate. It is also used to measure LDH, which is a marker of cell death during fermentation. The system is compatible with various types of bioprocesses.
In a bioprocessing lab, an analyzer is essential to track the yield and productivity. Most of the testing is done at the early stages of a therapeutics process, during the supply of plates and early clinical studies. With this analyzer, researchers can easily determine the levels of different metabolites in the media and accelerate process development cycles. The technology can also be used to monitor media at the line of production. The software can provide an accurate and consistent measurement of bioprocess metabolite levels, which is crucial for the optimal production of biotherapeutics.
The bioprocess analyzer measures multiple parameters such as lactate dehydrogenase, a marker of cell death during fermentation. This is a key indicator of the quality of the process. The LDH measurement is typically performed with a 96-well photometric assay. The other measurement method used is the measurement of the product titer, which is used for tracking the yield and productivity during protein purification processes. Traditionally, these measurements are carried out using enzyme membrane-based techniques. However, these methods have their drawbacks, including poor sensitivity, poor accuracy, and poor sample quality. The analyzer can be a valuable tool for protein purification and fermentation processes. It can measure a wide variety of metrics, including titers and lactate dehydrogenase. In addition to titer, the analyzer can also measure lactate. It is also used to measure LDH, which is a marker of cell death during fermentation. The system is compatible with various types of bioprocesses.
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