Hamilton

This white paper provides an overview of key units in the DSP skid train, including chromatography, ultrafiltration/diafiltration, viral inactivation, and optional operations like centrifugation and refolding. Critical process parameters (CPPs) associated with each operation are discussed, along with the analytical process sensors used to monitor them.

Get a better understanding of pH measurement in Hamilton’s comprehensive pH Measurement Guide. This 68-page booklet is intended for anyone with an interest in pH sensor technology or anyone who needs to implement pH sensors in controlled environments such as laboratories and industrial plants.

Collect more actionable data and optimize yield with real-time bioprocess adjustments. Learn how cell density monitoring works for your process in our comprehensive eBook. Discover must-see examples of real applications using in-line sensors for real-time viable cell density and total cell density monitoring.

Download our White Paper and learn about quality attributes, critical process parameters, and key performance indicators at the bioreactor. Our White Paper provides a comprehensive, but accessible, overview of requirements and recommendations related to the FDA's Process Analytical Technology (PAT) initiative for the biopharmaceutical industry.

Get a better understanding of dissolved oxygen (DO) measurement in Hamilton's comprehensive O2 Measurement Guide. This 72-page booklet is intended for anyone with an interest in DO sensor technology or anyone who needs to implement DO sensors in controlled environments such as laboratories and industrial plants.

Get a better understanding of pH measurement in Hamilton’s comprehensive pH Measurement Guide. This 68-page booklet is intended for anyone with an interest in pH sensor technology or anyone who needs to implement pH sensors in controlled environments such as laboratories and industrial plants.

The eBook features must-see examples of real applications using Hamilton viable cell density monitoring (Incyte) and total cell density monitoring (Dencytee) and demonstrates how to leverage Viable Cell Density Monitoring in your processes.

Precision fermentation, a sustainable method for producing alternative food ingredients, faces significant technical challenges. This white paper explores the critical role of Process Analytical Technology (PAT) in overcoming these hurdles and ensuring product quality through a Quality-by-Design (QbD) approach. Through a comprehensive review of literature and case studies, key technical challenges are identified to demonstrate how PAT can enhance scalability and sustainability. This paper also highlights the transformative potential of PAT in advancing precision fermentation as a reliable solution for addressing nutritional deficiencies and fostering a circular economy.

Download Part 2 of the DCO₂ White Paper Series and learn the shortcomings of current measurement technologies. As demonstrated in Part 1, Dissolved CO₂ is a Critical Process Parameter (CPP) in biopharma production processes. However, the sensors currently used to measure and monitor this CPP each have significant drawbacks.

Download our comprehensive white paper and gain valuable insights into the critical process parameters and advance sensor technologies that can revolutionize your Biopharma Downstream Process (DSP). Discover strategies and techniques to optimize efficiency, improve product quality, and ensure the safety and efficacy of your biopharmaceutical products.

How does PAT apply to the bioreactor? Download our comprehensive white paper and explore what PAT means in Biopharma Upstream processes. Discover cutting-edge solutions to effectively monitor critical process parameters and ensure product quality.

Are you missing sources of measurement error? Measurement of dissolved oxygen (DO) has long been known as a critical control parameter for optimizing cell growth in bioprocesses. Much has been written about different strategies for proper DO control. However, little information has been publicly available regarding optimization of the actual measurement accuracy and reducing common sources of process-related error. Our White Paper aims to divulge these details for the first time.

Collect More Actionable Data and Optimize Yield with Real-Time Process Adjustments. Learn more how Viable Cell Density Monitoring works for your process in Hamilton’s eBook that features must-see examples of real applications using Hamilton viable cell density monitoring (Incyte) and total cell density monitoring (Dencytee).

Download the white paper and learn how Implementing Real-Time Control of Carbon Dioxide can Impact Productivity at R&D and Production Scale Bioreactors. Dissolved CO₂ is a Critical Process Parameter (CPP) in biopharma production processes, as it has a direct impact on product titer and its critical quality attributes. It influences other culture parameters like extracellular and intracellular pH, as well as key performance indicators such as Viable Cell Density. Uncontrolled dissolved carbon dioxide levels in the bioreactor can result in growth inhibition, lower product titer, and decreased product quality.

Download our comprehensive white paper and gain valuable insights into the critical process parameters and advance sensor technologies that can revolutionize your Biopharma Downstream Process (DSP). Discover strategies and techniques to optimize efficiency, improve product quality, and ensure the safety and efficacy of your biopharmaceutical products.

How does PAT apply to the bioreactor? Download our comprehensive white paper and explore what PAT means in Biopharma Upstream processes. Discover cutting-edge solutions to effectively monitor critical process parameters and ensure product quality.