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Quality by design

January 01, 1970

Quality by design (QbD) is a concept first outlined by quality expert Joseph M. Juran in publications, most notably Juran on Quality by Design.[1] Designing for quality and innovation is one of the three universal processes of the Juran Trilogy, in which Juran describes what is required to achieve breakthroughs in new products, services, and processes.[2] Juran believed that quality could be planned, and that most quality crises and problems relate to the way in which quality was planned.

While quality by design principles have been used to advance product and process quality in industry, and particularly the automotive industry, they have also been adopted by the U.S. Food and Drug Administration (FDA) for the discovery, development, and manufacture of drugs.[3][4][5][6]

Juran on quality by design edit

The Juran Trilogy[2] defines the word "quality" as having two meanings: first, the presence of features that create customer satisfaction; second, the reliability of those features. Failures in features create dissatisfactions, so removing failures is the purpose of quality improvement, while creating features is the purpose of quality by design.[7] Juran's process seeks to create features in response to understanding customer needs. These are customer-driven features. The sum of all features is the new product, service, or process.[8]

The quality by design model consists of the following steps:

  1. Establish the project design targets and goals.
  2. Define the market and customers that will be targeted.
  3. Discover the market, customers, and societal needs.
  4. Develop the features of the new design that will meet the needs.
  5. Develop or redevelop the processes to produce the features.
  6. Develop process controls to be able to transfer the new designs to operations.[7]

It is not a statistical design method like Design for Six Sigma.

Integrated planning edit

Integrated planning requires a team with a leader whose sole accountability is for the total success of the new product from defining the opportunity through customer purchase, use, service, and recommendation to others. This team leader reports directly to a senior executive, or the team leader can be a senior executive. Each team member's job is to ensure the success of the new product.[9] In addition to organizational integration, a successful team must begin with clearly articulated common goals for the product that are measurable and authorized by the enterprise. These goals must, at a minimum, cover such elements as:

  • The customers or customer segments to be served by the new product
  • The relative and absolute quality goals
  • The volume of sales or revenue to be generated in an initial time period and for the long run
  • Market share, penetration, or sales relative to key competitors
  • The release date

The team will follow a structured process. The structure is the common framework for all participants in launching the new product and helps ensure success.[9]

Customer-focused optimization edit

Quality by design starts and ends with the customer.[1] Every new product introduction has some amount of trade-off involved. If there are multiple customers, they may have conflicting needs. Even the same customer may have needs that compete with each other. Capacity and speed compete with cost of operation. Capacity can compete with speed. Flexibility and feature-rich offerings may have reduced ease of use, and so on.[7]

Quality by design offers a range of tools and methods intended to make these tradeoffs explicit and optimal for the customer. Some tools are highly mathematical, and others relate more to customer behavior. Quality by design sets strong expectations for creative approaches to functional design, product features and goals, and production design.[10]

Control over variation and transfer to operations edit

Quality by design incorporates modern tools to preemptively control variation. These tools and methods begin by measuring and understanding the variation that exists by using historical data, testing, and modeling to help forecast, analyze, and eliminate the deleterious effects of variation using standard statistical techniques.[10] Process control consists of three basic activities:

  1. Evaluate the actual performance of the process
  2. Compare actual performance with goals
  3. Take action on the difference [7]

The final activity of the quality by design process is to implement the plan and validate that the transfer has occurred.[7]

Pharmaceutical quality by design edit

The FDA imperative is outlined in its report "Pharmaceutical Quality for the 21st Century: A Risk-Based Approach."[11] In the past few years, the agency has implemented the concepts of QbD into its pre-market processes. The focus of this concept is that quality should be built into a product with an understanding of the product and process by which it is developed and manufactured along with a knowledge of the risks involved in manufacturing the product and how best to mitigate those risks. This is a successor to the "quality by QC" (or "quality after design") approach that the companies have taken up until the 1990s.[12]

The QbD initiative, which originated from the Office of Biotechnology Products (OBP), attempts to provide guidance on pharmaceutical development to facilitate design of products and processes that maximizes the product's efficacy and safety profile while enhancing product manufacturability.

QbD activities within FDA edit

The following activities are guiding the implementation of QbD:

  • In FDA's Office of New Drug Quality Assessment (ONDQA), a new risk-based pharmaceutical quality assessment system (PQAS) was established based on the application of product and process understanding.
  • Implementation of a pilot program to allow manufacturers in the pharmaceutical industry to submit information for a new drug application demonstrating use of QbD principles, product knowledge, and process understanding. In 2006, Merck & Co.'s Januvia became the first product approved based upon such an application.[13]
  • Implementation of a Question-based Review (QbR) Process has occurred in CDER's Office of Generic Drugs.
  • CDER's Office of Compliance has played a role in complementing the QbD initiative by optimizing pre-approval inspection processes to evaluate commercial process feasibility and determining if a state of process control is maintained throughout the lifecycle, in accord with the ICH Q10 lifecycle Quality System.
  • First QbD Approval - including design space - for Biologic License Application (BLA) is Gazyva (Roche) [14]

While QbD will provide better design predictions, there is also a recognition that industrial scale-up and commercial manufacturing experience provides knowledge about the process and the raw materials used therein. FDA's release of the Process Validation[12] guidance in January 2011 notes the need for companies to continue benefiting from knowledge gained, and continually improve throughout the process lifecycle by making adaptations to assure root causes of manufacturing problems are corrected.

ICH activities edit

Working with regulators in the European Union (the European Medicines Agency) and Japan, the FDA has furthered quality by design objectives through the International Conference on Harmonisation of Technical Requirements for Registration of Pharmaceuticals for Human Use. The ICH Guidelines Q8 through Q11 encapsulate these unified recommendations and provide some assistance for manufacturers to implement quality by design into their own operations. ICH Guideline Q8 describes QbD-based drug formulation development and was first published in 2004, being subsequently revised in 2008 (Q8(R2)).[15] The ICH Guideline Q9 describes Quality Risk Management plans,[16] Q10 explains Pharmaceutical Quality Systems,[17] and Q11 refer to the development of active pharmacological substances including biologicals.[18]

In November 2017, the ICH issued Guideline Q12 for public consultation to extend the recommendations for the Product Lifecycle Management Plan that were initially defined in the Guideline Q10.[19] According to the ICH, Guideline Q13 will extend the previous guidelines to accommodate continuous pharmaceutical manufacturing[20] and Q2 (Analytical Validation) will be revised and extended into the guideline Q2(R2)/Q14 to include Analytical quality by design or AQbD.[21]

The ICH Steering Committee meets twice a year to discuss the progress of its efforts. This practical input should help ensure that quality risk management and knowledge management are used to make lifecycle adaptations that maintain process control and product quality.

See also edit

Further reading edit

  • Godfrey, A. Blanton; Kenett, Ron S. (2007). "Joseph M. Juran, a perspective on past contributions and future impact". Quality and Reliability Engineering International. 23 (6): 653–663. doi:10.1002/qre.861. S2CID 23806604.
  • Kenett, Ron S.; Kenett, Dan A. (2008). "Quality by Design applications in biosimilar pharmaceutical products". Accreditation and Quality Assurance. 13 (12): 681–690. doi:10.1007/s00769-008-0459-6. S2CID 110606284.

References edit

  1. ^ a b Juran, J.M. (1992). Juran on Quality by Design: The New Steps for Planning Quality into Goods and Services. Free Press.
  2. ^ a b Juran, J.M. (1986). "The Quality Trilogy: A Universal Approach to Managing for Quality". Quality Progress.
  3. ^ Yu, Lawrence X. (2008). "Pharmaceutical Quality by Design: Product and Process Development, Understanding, and Control". Pharmaceutical Research. 25 (4): 781–791. doi:10.1007/s11095-007-9511-1. PMID 18185986. S2CID 11700550.
  4. ^ Roadmap for implementation of quality by design (QbD) for biotechnology products
  5. ^ Lebrun, Pierre; Govaerts, Bernadette; Debrus, Benjamin; Ceccato, Attilio; Caliaro, Gabriel; Hubert, Philippe; Boulanger, Bruno (2008). "Development of a new predictive modelling technique to find with confidence equivalence zone and design space of chromatographic analytical methods". Chemometrics and Intelligent Laboratory Systems. 91: 4–16. doi:10.1016/j.chemolab.2007.05.010. S2CID 124129813.
  6. ^ Schweitzer, Mark; et al. (February 2010). "Implications and Opportunities of Applying QbD Principles to Analytical Measurements". Pharmaceutical Technology. 34 (2): 52–59.
  7. ^ a b c d e DeFeo, Joseph A. & Juran, Joseph M. (2010). Juran's Quality Handbook: The Complete Guide to Performance Excellence 6/e. McGraw Hill.
  8. ^ DeFeo, Joseph A. (2014). Juran's Quality Essentials for Leaders. McGraw Hill.
  9. ^ a b Early, John (14 Feb 2013). "Quality by Design, Part 1". Quality Digest.
  10. ^ a b Early, John (19 Feb 2013). "Quality by Design, Part 2". Quality Digest.
  11. ^ Pharmaceutical Quality for the 21st Century: A Risk-Based Approach https://www.fda.gov/aboutfda/centersoffices/officeofmedicalproductsandtobacco/cder/ucm128080.htm
  12. ^ a b "Process Validation: General Principles and Practices" (PDF). FDA Guidance. 2019-06-05.
  13. ^ FDA Approves New Treatment for Diabetes 17 Oct 2006.
  14. ^ "1st QBD Approval for Biologics: Gazyva Design Space". 2014-03-18.
  15. ^ "PHARMACEUTICAL DEVELOPMENT Q8(R2)" (PDF).
  16. ^ "QUALITY RISK MANAGEMENT Q9" (PDF).
  17. ^ "PHARMACEUTICAL QUALITY SYSTEM Q10" (PDF).
  18. ^ "DEVELOPMENT AND MANUFACTURE OF DRUG SUBSTANCES (CHEMICAL ENTITIES AND BIOTECHNOLOGICAL/BIOLOGICAL ENTITIES) Q11" (PDF).
  19. ^ "TECHNICAL AND REGULATORY CONSIDERATIONS FOR PHARMACEUTICAL PRODUCT LIFECYCLE MANAGEMENT Q12" (PDF).
  20. ^ "ICH Q13: Continuous Manufacturing of Drug Substances and Drug Products dated 14 November 2018" (PDF).
  21. ^ "ICH Q14: Analytical Procedure Development and Revision of Q2(R1) Analytical Validation dated 14 November 2018" (PDF).

External links edit

  • Implementing Quality by Design, by Helen Winkle, FDA
  • Implementation of QbD Principles in CMC Review, by Chi-Wan Chen, PhD, Deputy Director, Office of New Drug Chemistry
  • Quality-by-Design Case Studies in Pharmaceuticals and Biologics
  • Juran.com

January 01, 1970
quality, design, concept, first, outlined, quality, expert, joseph, juran, publications, most, notably, juran, quality, design, designing, quality, innovation, three, universal, processes, juran, trilogy, which, juran, describes, what, required, achieve, break. Quality by design QbD is a concept first outlined by quality expert Joseph M Juran in publications most notably Juran on Quality by Design 1 Designing for quality and innovation is one of the three universal processes of the Juran Trilogy in which Juran describes what is required to achieve breakthroughs in new products services and processes 2 Juran believed that quality could be planned and that most quality crises and problems relate to the way in which quality was planned While quality by design principles have been used to advance product and process quality in industry and particularly the automotive industry they have also been adopted by the U S Food and Drug Administration FDA for the discovery development and manufacture of drugs 3 4 5 6 Contents 1 Juran on quality by design 1 1 Integrated planning 1 2 Customer focused optimization 1 3 Control over variation and transfer to operations 2 Pharmaceutical quality by design 2 1 QbD activities within FDA 2 2 ICH activities 3 See also 4 Further reading 5 References 6 External linksJuran on quality by design editThe Juran Trilogy 2 defines the word quality as having two meanings first the presence of features that create customer satisfaction second the reliability of those features Failures in features create dissatisfactions so removing failures is the purpose of quality improvement while creating features is the purpose of quality by design 7 Juran s process seeks to create features in response to understanding customer needs These are customer driven features The sum of all features is the new product service or process 8 The quality by design model consists of the following steps Establish the project design targets and goals Define the market and customers that will be targeted Discover the market customers and societal needs Develop the features of the new design that will meet the needs Develop or redevelop the processes to produce the features Develop process controls to be able to transfer the new designs to operations 7 It is not a statistical design method like Design for Six Sigma Integrated planning edit Integrated planning requires a team with a leader whose sole accountability is for the total success of the new product from defining the opportunity through customer purchase use service and recommendation to others This team leader reports directly to a senior executive or the team leader can be a senior executive Each team member s job is to ensure the success of the new product 9 In addition to organizational integration a successful team must begin with clearly articulated common goals for the product that are measurable and authorized by the enterprise These goals must at a minimum cover such elements as The customers or customer segments to be served by the new product The relative and absolute quality goals The volume of sales or revenue to be generated in an initial time period and for the long run Market share penetration or sales relative to key competitors The release date The team will follow a structured process The structure is the common framework for all participants in launching the new product and helps ensure success 9 Customer focused optimization edit Quality by design starts and ends with the customer 1 Every new product introduction has some amount of trade off involved If there are multiple customers they may have conflicting needs Even the same customer may have needs that compete with each other Capacity and speed compete with cost of operation Capacity can compete with speed Flexibility and feature rich offerings may have reduced ease of use and so on 7 Quality by design offers a range of tools and methods intended to make these tradeoffs explicit and optimal for the customer Some tools are highly mathematical and others relate more to customer behavior Quality by design sets strong expectations for creative approaches to functional design product features and goals and production design 10 Control over variation and transfer to operations edit Quality by design incorporates modern tools to preemptively control variation These tools and methods begin by measuring and understanding the variation that exists by using historical data testing and modeling to help forecast analyze and eliminate the deleterious effects of variation using standard statistical techniques 10 Process control consists of three basic activities Evaluate the actual performance of the process Compare actual performance with goals Take action on the difference 7 The final activity of the quality by design process is to implement the plan and validate that the transfer has occurred 7 Pharmaceutical quality by design editThe FDA imperative is outlined in its report Pharmaceutical Quality for the 21st Century A Risk Based Approach 11 In the past few years the agency has implemented the concepts of QbD into its pre market processes The focus of this concept is that quality should be built into a product with an understanding of the product and process by which it is developed and manufactured along with a knowledge of the risks involved in manufacturing the product and how best to mitigate those risks This is a successor to the quality by QC or quality after design approach that the companies have taken up until the 1990s 12 The QbD initiative which originated from the Office of Biotechnology Products OBP attempts to provide guidance on pharmaceutical development to facilitate design of products and processes that maximizes the product s efficacy and safety profile while enhancing product manufacturability QbD activities within FDA edit The following activities are guiding the implementation of QbD In FDA s Office of New Drug Quality Assessment ONDQA a new risk based pharmaceutical quality assessment system PQAS was established based on the application of product and process understanding Implementation of a pilot program to allow manufacturers in the pharmaceutical industry to submit information for a new drug application demonstrating use of QbD principles product knowledge and process understanding In 2006 Merck amp Co s Januvia became the first product approved based upon such an application 13 Implementation of a Question based Review QbR Process has occurred in CDER s Office of Generic Drugs CDER s Office of Compliance has played a role in complementing the QbD initiative by optimizing pre approval inspection processes to evaluate commercial process feasibility and determining if a state of process control is maintained throughout the lifecycle in accord with the ICH Q10 lifecycle Quality System First QbD Approval including design space for Biologic License Application BLA is Gazyva Roche 14 While QbD will provide better design predictions there is also a recognition that industrial scale up and commercial manufacturing experience provides knowledge about the process and the raw materials used therein FDA s release of the Process Validation 12 guidance in January 2011 notes the need for companies to continue benefiting from knowledge gained and continually improve throughout the process lifecycle by making adaptations to assure root causes of manufacturing problems are corrected ICH activities edit Working with regulators in the European Union the European Medicines Agency and Japan the FDA has furthered quality by design objectives through the International Conference on Harmonisation of Technical Requirements for Registration of Pharmaceuticals for Human Use The ICH Guidelines Q8 through Q11 encapsulate these unified recommendations and provide some assistance for manufacturers to implement quality by design into their own operations ICH Guideline Q8 describes QbD based drug formulation development and was first published in 2004 being subsequently revised in 2008 Q8 R2 15 The ICH Guideline Q9 describes Quality Risk Management plans 16 Q10 explains Pharmaceutical Quality Systems 17 and Q11 refer to the development of active pharmacological substances including biologicals 18 In November 2017 the ICH issued Guideline Q12 for public consultation to extend the recommendations for the Product Lifecycle Management Plan that were initially defined in the Guideline Q10 19 According to the ICH Guideline Q13 will extend the previous guidelines to accommodate continuous pharmaceutical manufacturing 20 and Q2 Analytical Validation will be revised and extended into the guideline Q2 R2 Q14 to include Analytical quality by design or AQbD 21 The ICH Steering Committee meets twice a year to discuss the progress of its efforts This practical input should help ensure that quality risk management and knowledge management are used to make lifecycle adaptations that maintain process control and product quality See also editLaboratory quality control Quality controlFurther reading editGodfrey A Blanton Kenett Ron S 2007 Joseph M Juran a perspective on past contributions and future impact Quality and Reliability Engineering International 23 6 653 663 doi 10 1002 qre 861 S2CID 23806604 Kenett Ron S Kenett Dan A 2008 Quality by Design applications in biosimilar pharmaceutical products Accreditation and Quality Assurance 13 12 681 690 doi 10 1007 s00769 008 0459 6 S2CID 110606284 References edit a b Juran J M 1992 Juran on Quality by Design The New Steps for Planning Quality into Goods and Services Free Press a b Juran J M 1986 The Quality Trilogy A Universal Approach to Managing for Quality Quality Progress Yu Lawrence X 2008 Pharmaceutical Quality by Design Product and Process Development Understanding and Control Pharmaceutical Research 25 4 781 791 doi 10 1007 s11095 007 9511 1 PMID 18185986 S2CID 11700550 Roadmap for implementation of quality by design QbD for biotechnology products Lebrun Pierre Govaerts Bernadette Debrus Benjamin Ceccato Attilio Caliaro Gabriel Hubert Philippe Boulanger Bruno 2008 Development of a new predictive modelling technique to find with confidence equivalence zone and design space of chromatographic analytical methods Chemometrics and Intelligent Laboratory Systems 91 4 16 doi 10 1016 j chemolab 2007 05 010 S2CID 124129813 Schweitzer Mark et al February 2010 Implications and Opportunities of Applying QbD Principles to Analytical Measurements Pharmaceutical Technology 34 2 52 59 a b c d e DeFeo Joseph A amp Juran Joseph M 2010 Juran s Quality Handbook The Complete Guide to Performance Excellence 6 e McGraw Hill DeFeo Joseph A 2014 Juran s Quality Essentials for Leaders McGraw Hill a b Early John 14 Feb 2013 Quality by Design Part 1 Quality Digest a b Early John 19 Feb 2013 Quality by Design Part 2 Quality Digest Pharmaceutical Quality for the 21st Century A Risk Based Approach https www fda gov aboutfda centersoffices officeofmedicalproductsandtobacco cder ucm128080 htm a b Process Validation General Principles and Practices PDF FDA Guidance 2019 06 05 FDA Approves New Treatment for Diabetes 17 Oct 2006 1st QBD Approval for Biologics Gazyva Design Space 2014 03 18 PHARMACEUTICAL DEVELOPMENT Q8 R2 PDF QUALITY RISK MANAGEMENT Q9 PDF PHARMACEUTICAL QUALITY SYSTEM Q10 PDF DEVELOPMENT AND MANUFACTURE OF DRUG SUBSTANCES CHEMICAL ENTITIES AND BIOTECHNOLOGICAL BIOLOGICAL ENTITIES Q11 PDF TECHNICAL AND REGULATORY CONSIDERATIONS FOR PHARMACEUTICAL PRODUCT LIFECYCLE MANAGEMENT Q12 PDF ICH Q13 Continuous Manufacturing of Drug Substances and Drug Products dated 14 November 2018 PDF ICH Q14 Analytical Procedure Development and Revision of Q2 R1 Analytical Validation dated 14 November 2018 PDF External links editImplementing Quality by Design by Helen Winkle FDA Implementation of QbD Principles in CMC Review by Chi Wan Chen PhD Deputy Director Office of New Drug Chemistry Quality by Design Case Studies in Pharmaceuticals and Biologics Juran com Retrieved from https en wikipedia org w index php title Quality by design amp oldid 1168199906, wikipedia, wiki, book, books, library,

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