Recap of the SELECT Criteria
The biggest impact a chemist can have on the economic and environmental performance of a manufacturing process is in selecting the optimum synthetic route using the best available techniques/technologies at that moment in time. Route selection is a complex process, and synthetic routes can change during the development pipeline of an API, and post launch as part of life cycle management activity. In their paper ‘Critical Assessment of Pharmaceutical Processes; A Rationale for Changing the Synthetic Route’ [1] Butters et al. published their work on the ‘SELECT’ criteria which have since been widely adopted . A manufacturing route could be improved/ changed to meet any or all of the SELECT criteria.
- S – Safety – removal/minimisation of reactive hazards and toxicity and hazardous reagents/solvents.
- E – Environmental – removal/minimisation of reagents/solvents harmful to the environment; volume and nature of waste.
- L – Legal – no infringement of existing intellectual property.
- E – Economics – minimise cost of goods/meeting cost of goods target.
- C – Control – meeting quality specifications; process must be under control, validated, consistent impurity profile.
- T – Throughput – availability of raw materials; manufacturing time; maximised space time yield.
The SELECT criteria are covered in more detail in Introduction to Process Chemistry in the Foundation topic.
- M. Butters, D. Catterick, A. Craig, A. Curzons, D. Dale, A. Gillmore, S. P. Green, I. Marziano, J. – P. Sherlock and W. White, Critical Assessment of Pharmaceutical Processes – A Rationale for Changing the Synthetic Route, Chem. Rev., 2006, 106, 3002-3027.
- Route Selection
- GMP
- Introduction to Process Engineering
- Route Selection and Scale Up: Case Study and Exercise
- Process Safety
- Reactive Hazards in Scaling Up: Case Study and Exercise
- Design of Experiments
- Some Definitions
- The Experimental Design Process
- Comparing Traditional Approaches to Experimental Design
- Examples of Variables and Responses for a Chemical Process
- Main Effects and Interactions
- Experimental Designs: Factorial Designs
- Experimental Designs: Response Surface Design
- Design of Experiments: Summary and Further Reading
- Reaction Work-up and Product Isolation
- Environmental Legislation
- Abatement and Waste Treatment