Near-infrared spectroscopy (NIRS) is known to be a rapid and non-destructive technique for process monitoring. Bioprocesses are usually complex, from both the chemical (ill-defined medium composition) and physical (multiphase matrix) aspects, which poses an additional challenge to the development of robust calibrations. We investigated the use of NIRS for on-line and in-line monitoring of cell, substrate and product concentrations, during aerobic and anaerobic bacterial fermentations, in different fermentation strategies. Calibration models were built up, then validated and used for the automated control of fermentation processes. The capability of NIR in-line to discriminate among differently shaped bacteria was tested
Escherichia coli, the most common host microorganism to produce high value biopharmaceuticals, prese...
The need for effective bioprocess (fermentation) monitoring is growing in importance due to the rapi...
The use of at-line NIRS to monitor a high cell density fed-batch baker's yeast bioprocess was invest...
Near-infrared spectroscopy (NIRS) is known to be a rapid and non-destructive technique for process m...
The application of NIR in-line to monitor and control fermentation processes was investigated. Deter...
The development of Near Infrared Spectroscopy has paralleled that of the PC, and the application of ...
One of the key goals in bioprocess monitoring is to achieve real-time knowledge of conditions within...
The use of in-situ near infrared spectroscopy (NIRS) as a tool for monitoring four key analytes in a...
Abstract The fermentation process is dynamically changing, and the metabolic status can be grasped t...
Access to real-time process information is desirable for consistent and efficient operation of biopr...
Real-time measurements and adjustments of critical process parameters are essential for the precise ...
Real-time measurements and adjustments of critical process parameters are essential for the precise ...
The application of near infrared spectroscopy in bioprocessing has been limited by its dependence on...
Due to the lack of suitable in-process sensors, on-line monitoring of fermentation processes is rest...
Escherichia coli, the most common host microorganism to produce high value biopharmaceuticals, prese...
The need for effective bioprocess (fermentation) monitoring is growing in importance due to the rapi...
The use of at-line NIRS to monitor a high cell density fed-batch baker's yeast bioprocess was invest...
Near-infrared spectroscopy (NIRS) is known to be a rapid and non-destructive technique for process m...
The application of NIR in-line to monitor and control fermentation processes was investigated. Deter...
The development of Near Infrared Spectroscopy has paralleled that of the PC, and the application of ...
One of the key goals in bioprocess monitoring is to achieve real-time knowledge of conditions within...
The use of in-situ near infrared spectroscopy (NIRS) as a tool for monitoring four key analytes in a...
Abstract The fermentation process is dynamically changing, and the metabolic status can be grasped t...
Access to real-time process information is desirable for consistent and efficient operation of biopr...
Real-time measurements and adjustments of critical process parameters are essential for the precise ...
Real-time measurements and adjustments of critical process parameters are essential for the precise ...
The application of near infrared spectroscopy in bioprocessing has been limited by its dependence on...
Due to the lack of suitable in-process sensors, on-line monitoring of fermentation processes is rest...
Escherichia coli, the most common host microorganism to produce high value biopharmaceuticals, prese...
The need for effective bioprocess (fermentation) monitoring is growing in importance due to the rapi...
The use of at-line NIRS to monitor a high cell density fed-batch baker's yeast bioprocess was invest...