What is PAT?
What is PAT?
Process Analytical Technology

What is PAT?

Process Analytical Technology (PAT) enables manufacturers to measure and control a process based on the Critical Quality Attributes (CQAs) of the product, in real time. Controlling the process parameters optimises quality, while reducing the cost and time of product development and manufacturing.

About PAT

With PAT, these CQAs can be measured in real time, therefore leading to real-time, continuous quality control of the process. PAT maps the route to a Quality by Design (QbD) approach to production. This is consistent with the FDA's current drug quality system: quality should not be tested into products; it should be built-in or should be by design.

The PAT framework uses in-line or on-line instrumentation to analyze raw, in-process materials and final products, in real time. Complex, multivariate and univariate instrument data is interpreted, from which the critical process parameters are predicted and where necessary adjusted to optimize the outcome of the process.

Analytical results make it possible to predict the quality of the end material, and to understand how altering critical process parameters (CPPs) will affect the process and end product.

The prediction of CQAs is made by analyzing the univariate and spectral instrumentation data with mathematical and statistical procedures known as multivariate analysis (MVA, also known as chemometrics).

In turn, by executing experiments where real-time quality predictions are made, the relationships between the CPPs and CQAs can be established, so that true process understanding is developed. Armed with this knowledge, it is possible to ‘close the loop’ and control the process using those quality predictions.

PAT can be employed at all stages of the development and manufacturing process, from small-scale implementations within laboratory, R&D or pilot plant operations, through to complex, interconnected GMP processes.  

Free eBook:

‘QbD & PAT for Dummies’ offers a simple and easy to follow guide on what Quality by Design (QbD) and PAT are, the regulatory framework supporting these approaches, as well as how leveraging these concepts can positively transform production processes and quality testing.

Benefits

It has an established reputation in providing significant quality and commercial benefits.  

  • Reduced waste and rework, energy consumption, right-first-time manufacturing, higher production asset utilization 
  • Faster development and manufacturing cycle times
  • Real-time quality assurance and validation; full ‘out the box’ data integrity 
  • Movement towards real-time product release 
  • Reduced raw material, work-in-progress, and finished goods inventories by lean manufacturing processes 
  • Improved sustainability and increased robust product supply to the public 
  • Greater flexibility in sourcing raw materials 
  • Enables “Just in Time” manufacturing, greatly reducing the work-in-progress material holding 
  • Enables a change from batch to continuous manufacturing 

More Information

Part 1: What PAT can do for me
Part 4: The Application of PAT to Industries - Processes and Products
Part 2: The Technical Aspects of PAT
Part 3: The PAT Implementation Approach