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Product development and technology transfer M pharm

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1. The document discusses technology transfer in the pharmaceutical industry, which refers to transferring details about formulations and analytical methods from research and development to production. This includes transferring a drug product from laboratory scale to production scale. 2. It outlines the goals, objectives, methods, and importance of technology transfer. The key methods are licensing and technology transfer involves a framework including a feasibility study, scale-up, validation, and production batches. 3. Successful technology transfer requires establishing a technology transfer team representing different areas like quality assurance, production, and engineering to review documentation, manufacturing processes, and equipment needs.

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PES’s MODERN COLLEGE OF PHARMACY, N PUNE. PRESENTATION ON TECHNOLOGY TRANSFER INTRODUCTION AND TECHNOLOGY TRANSFER FROM R&D TO PRODUCTION BY QA116 Pooja B Wadgave Guided by Dr. Anuradha G. More (Professor) 1
INTRODUCTION: Technology transfer is transferring of details of concerning formulation and analytical strategies from one area to another area that’s from R&D to Production department and succeeding drug product from the laboratory scale to the production scale 1. In Pharmaceutical Industry, “Technology Transfer” refers to a method of victorious steps forward from drug discovery to product development, clinical trials and at last to full-scale commercialization 2. Researcher of technology creates his technology existing to a commercial collaborator which will make use of the technology. According to WHO = “outlined as a logical procedure that controls the transfer of any method alongside its documentation and professional expertise between development and manufacture or b/w manufacturer site. It is useful to build up dosage form in various ways because it provides efficiency in development, maintains quality of product, helps to realize a standardized process that facilitates price-effective production.” 2
There are two sorts of technology transfer processes : 1.Vertical 2.Horizontal • Vertical technology transfer refers to the transfer of data from basic study to development and production respectively. • Horizontal technology transfer refers to the movement and application of technology is to be used in one place or context to a different place. • Commercial technology transfer is mutually agreed, and productgoal destined. The achievement of any specific technology transfer depends upon method understanding or the flexibility to predict exactly the long term performance of a process. • Designing drug product Developing drug product Technology transfer manufacturing site. 3
Technology transfer framework 4
Goals of Technology Transfer: It is to transfer product and process knowledge between and manufacturing and within or between manufacturing sites to achieve product realization. This knowledge forms the basis for the manufacturing process, control strategy process validation approach and ongoing continual improvement. Goals of Technology Transfer: It is to transfer product and process knowledge between and manufacturing and within or between manufacturing sites to achieve product realization. This knowledge forms the basis for the manufacturing process, control strategy process validation approach and ongoing continual improvement. Objectives of Technology Transfer: •To explain the processing information to transfer technology from R&D to production site by listing out information gathered during R&D. •To explain the processing information to transfer technology of already existing drug product between various places. •To illustrate specific procedures and points to be considered for the above two types of technology transfer to contribute smooth technology transfer. 5
Methods for Technology Transfer: • Licensing is the most common method of technology transfer. • There are two strategies for licensing one is licensing in and licensing out. • In licensing – in strategy, small companies and lack facilities to do basic research and these facilities want to buy other research. • In case of licensing - out strategy, the company right is given to another party. 6
Importance of Technology Transfer: • Technology transfer shows important in extended benefits of R&D to the society. In the pharmaceutical industry, designing of dosage form needs scale up at several stages, such as pilot-scale from 0.5 - 2 kg batch can be scaled up to 5/10 kgs then to 20/100 kg. Production scale typically ranges from 200 kg to 1000 kg. • It involves manufacturing of drug product with increasing their batch sizes with the help of larger equipment. Generally scale up involves transfer of technology and transfer of knowledge that has been accumulated during small scale development of product and process. Usually research has been carried out on a small scale before it produced for large scale commercial batch. • Technology transfer is important for research activities to materialize on a large scale for commercialization especially in case of developing a drug product. 7
Flow Chart of Technology Transfer in the Pharmaceutical Industry: Technology developer Technology receiving site Feasibility study Scale-up Exhibit batches Stability study Process validation batches Production batches 8
Factors that Affect the Process if Technology Transfer in the Pharmaceutical Industry: • Investment in R&D. • Establishing the link between production and research. • Data development within the field of technology transfer methods. • Organizational, equip mental and informational infrastructures. • Awareness of basic and necessary factor need for technology transfer. • Consideration of existing and old technologies 9
Steps Involved in Technology Transfer: Transformation of Pharmaceutical prototype into a successful product needs the cooperation of many people. During development of a formulation, it is vital to understand procedure of operations used, critical and non-critical parameters of every operation, production environment, instrumentation, and excipient convenience, that ought to be taken into consideration throughout the first phases of development of formulation, so that successful scale-up can be carried out. Various Steps Concerned in Technology Transfer as Follows: Research Phase (Development of Technology by R&D): a) Design and Choice of Excipients by R&D: choice of materials and design of procedures are carried out by R&D on the premise of innovator product characteristics. For this completely different tests and compatibility studies are performed. 10
b) Identification of Specifications and Quality by R&D: Quality of product ought to meet the specifications of an innovator product. For this stability, studies are carried out for innovator product and for product that is to be manufactured. 11
Technology Transfer from R & D to Production (Development Phase): R&D provides technology transfer dossier (TTD) document to a product development laboratory that contains all data of formulation and drug product as given below: a) Master Formula Card (MFC): It includes product name along with its strength, The generic name, MFC number, page number, effective date, shelf life, and market. b) Master Packaging Card: It provides data regarding packaging sort, the material used for packaging, stability profile of packaging and shelf life of packaging. c) Master Formula: It describes formulation order and manufacturing instructions. Formulation order and Manufacturing Instructions offer the plan of process order, surroundings conditions needed and manufacturing instructions for the development of dosage form. 12
d) Specifications and Standard Test Procedures (STPs): These help to know active ingredients and excipients profile, in process parameters and specifications, product release specifications and finished product details. 13
Optimization and Production (Production Phase): a) Validation Studies: Validation studies verify that the method will stabilize the product based on transferred manufacturing formula and production is enforced once validation studies. The manufacturing department is accepting technology and liable for validation. The research and development department transferring technology ought to take responsibility for validation like performance qualification, cleaning and method validation. b) Scale Up for Production: Scale up involves the transfer of technology throughout small scale development of the product and processes. It’s essential to contemplate the production surroundings and system throughout the development of the method. Operators ought to target keeping in mind that the production process can run smoothly if technology transfer is enforced thoughtfully. Effective technology transfer helps to provide process efficiency and maintain product quality. 14
Technology Transfer Team: As the team concept is always the best approach to achieve successful technology transfer projects. The core technology transfer team must be commissioned immediately following the decisions of the executive management to pursue the drug candidate to commercialization. A typical technology transfer core team will likely be comprised of individual’s representatives of the different segments of the business. The technology transfer team consists of the following members, and their responsibilities are given above. 17
TECHNOLOGY transfer team members RESPONSIBILITIES Process Technologist a) Central focus for transfer activities. b) Collates documentation from the donor site c) Performs initial assessment of the transferred project for Feasibleness, Compatibility with site capabilities and Establishes resource needs. QA Representative d) Reviews documentation to work out compliance with marketing authorization (MA) e) Reviews analytical strategies with QC to work out capability, instrumentation training requirements. f) Initiates conversion of donor site documentation into local systems or format. g) Initiates or confirms regulatory needs, e.g., an amendment to manufacturing license; variations to MA if method changes needed, etc. Production Representative h) Reviews process instructions (with process technologist) to verify capacity and capability. i) Considers any safety implications, e.g., solvents; toxic; sanitizing materials. j) Considers the impact on local standard operating procedures (SOPs). k) Considers the training requirements of supervisors or operators. TECHNOLOGY TRANSFER TEAM MEMBERS AND THEIR RESPONSIBILITIES 15
Engineering Representative l) Reviews (with production representative) instrumentation requirement. m) Initiates required engineering modifications, change or part purchase. n) Reviews preventative maintenance and calibration impact, e.g., use of a lot of aggressive ingredients; more temperature-sensitive method, and modifies consequently. QC Representative o) Reviews analytical requirement. p) Availability with instruments. q) Responsible for analytical technique transfer for drug substance and drug product 16
Multiple Choice Questions 1. Technology transfer is transfer of …… from R&D to production a. Formulation information b. Analytical strategies c. Documentation d. All of the above. Ans. d. All of the above. 2. Which of the following is vertical technology transfer? a. Transfer of data from basic study to development and production. b. movement and application of technology is to be used in one place or context to a different place. c. None of the above d.All of above. Ans. a. Transfer of data from basic study to development and production. 3. Production scale typically ranges from…… a. 20 to 100 kgs b.100 to 200 kgs c. 200 to 1000 kgs d. None of above Ans. 200 to 1000 kgs. 18
4. Technology transfer team members are: a. QC Representative. b. Process Technologist. c. Production Representative. d. All of the above. Ans. d. All of the above. 5. Methods of technology transfer are: a. Licensing. b. Production. c. Development d. Research. Ans. Licensing. 19
References: 1. AN OVERVIEW ON TECHNOLOGY TRANSFER OF PHARMACEUTICAL INDUSTRY Shalini et al., IJPSR, 2020; Vol. 11(2): 573-579. E-ISSN: 0975- 8232; P-ISSN: 2320-514 3. Pharmaceutical Product Development: Insights Into Pharmaceutical Processes, Management and Regulatory Affairs by Vandana B. Patravale, John I. Disouza, et al. 20
Product development and technology transfer M pharm

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Product development and technology transfer M pharm

  • 1. PES’s MODERN COLLEGE OF PHARMACY, N PUNE. PRESENTATION ON TECHNOLOGY TRANSFER INTRODUCTION AND TECHNOLOGY TRANSFER FROM R&D TO PRODUCTION BY QA116 Pooja B Wadgave Guided by Dr. Anuradha G. More (Professor) 1
  • 2. INTRODUCTION: Technology transfer is transferring of details of concerning formulation and analytical strategies from one area to another area that’s from R&D to Production department and succeeding drug product from the laboratory scale to the production scale 1. In Pharmaceutical Industry, “Technology Transfer” refers to a method of victorious steps forward from drug discovery to product development, clinical trials and at last to full-scale commercialization 2. Researcher of technology creates his technology existing to a commercial collaborator which will make use of the technology. According to WHO = “outlined as a logical procedure that controls the transfer of any method alongside its documentation and professional expertise between development and manufacture or b/w manufacturer site. It is useful to build up dosage form in various ways because it provides efficiency in development, maintains quality of product, helps to realize a standardized process that facilitates price-effective production.” 2
  • 3. There are two sorts of technology transfer processes : 1.Vertical 2.Horizontal • Vertical technology transfer refers to the transfer of data from basic study to development and production respectively. • Horizontal technology transfer refers to the movement and application of technology is to be used in one place or context to a different place. • Commercial technology transfer is mutually agreed, and productgoal destined. The achievement of any specific technology transfer depends upon method understanding or the flexibility to predict exactly the long term performance of a process. • Designing drug product Developing drug product Technology transfer manufacturing site. 3
  • 5. Goals of Technology Transfer: It is to transfer product and process knowledge between and manufacturing and within or between manufacturing sites to achieve product realization. This knowledge forms the basis for the manufacturing process, control strategy process validation approach and ongoing continual improvement. Goals of Technology Transfer: It is to transfer product and process knowledge between and manufacturing and within or between manufacturing sites to achieve product realization. This knowledge forms the basis for the manufacturing process, control strategy process validation approach and ongoing continual improvement. Objectives of Technology Transfer: •To explain the processing information to transfer technology from R&D to production site by listing out information gathered during R&D. •To explain the processing information to transfer technology of already existing drug product between various places. •To illustrate specific procedures and points to be considered for the above two types of technology transfer to contribute smooth technology transfer. 5
  • 6. Methods for Technology Transfer: • Licensing is the most common method of technology transfer. • There are two strategies for licensing one is licensing in and licensing out. • In licensing – in strategy, small companies and lack facilities to do basic research and these facilities want to buy other research. • In case of licensing - out strategy, the company right is given to another party. 6
  • 7. Importance of Technology Transfer: • Technology transfer shows important in extended benefits of R&D to the society. In the pharmaceutical industry, designing of dosage form needs scale up at several stages, such as pilot-scale from 0.5 - 2 kg batch can be scaled up to 5/10 kgs then to 20/100 kg. Production scale typically ranges from 200 kg to 1000 kg. • It involves manufacturing of drug product with increasing their batch sizes with the help of larger equipment. Generally scale up involves transfer of technology and transfer of knowledge that has been accumulated during small scale development of product and process. Usually research has been carried out on a small scale before it produced for large scale commercial batch. • Technology transfer is important for research activities to materialize on a large scale for commercialization especially in case of developing a drug product. 7
  • 8. Flow Chart of Technology Transfer in the Pharmaceutical Industry: Technology developer Technology receiving site Feasibility study Scale-up Exhibit batches Stability study Process validation batches Production batches 8
  • 9. Factors that Affect the Process if Technology Transfer in the Pharmaceutical Industry: • Investment in R&D. • Establishing the link between production and research. • Data development within the field of technology transfer methods. • Organizational, equip mental and informational infrastructures. • Awareness of basic and necessary factor need for technology transfer. • Consideration of existing and old technologies 9
  • 10. Steps Involved in Technology Transfer: Transformation of Pharmaceutical prototype into a successful product needs the cooperation of many people. During development of a formulation, it is vital to understand procedure of operations used, critical and non-critical parameters of every operation, production environment, instrumentation, and excipient convenience, that ought to be taken into consideration throughout the first phases of development of formulation, so that successful scale-up can be carried out. Various Steps Concerned in Technology Transfer as Follows: Research Phase (Development of Technology by R&D): a) Design and Choice of Excipients by R&D: choice of materials and design of procedures are carried out by R&D on the premise of innovator product characteristics. For this completely different tests and compatibility studies are performed. 10
  • 11. b) Identification of Specifications and Quality by R&D: Quality of product ought to meet the specifications of an innovator product. For this stability, studies are carried out for innovator product and for product that is to be manufactured. 11
  • 12. Technology Transfer from R & D to Production (Development Phase): R&D provides technology transfer dossier (TTD) document to a product development laboratory that contains all data of formulation and drug product as given below: a) Master Formula Card (MFC): It includes product name along with its strength, The generic name, MFC number, page number, effective date, shelf life, and market. b) Master Packaging Card: It provides data regarding packaging sort, the material used for packaging, stability profile of packaging and shelf life of packaging. c) Master Formula: It describes formulation order and manufacturing instructions. Formulation order and Manufacturing Instructions offer the plan of process order, surroundings conditions needed and manufacturing instructions for the development of dosage form. 12
  • 13. d) Specifications and Standard Test Procedures (STPs): These help to know active ingredients and excipients profile, in process parameters and specifications, product release specifications and finished product details. 13
  • 14. Optimization and Production (Production Phase): a) Validation Studies: Validation studies verify that the method will stabilize the product based on transferred manufacturing formula and production is enforced once validation studies. The manufacturing department is accepting technology and liable for validation. The research and development department transferring technology ought to take responsibility for validation like performance qualification, cleaning and method validation. b) Scale Up for Production: Scale up involves the transfer of technology throughout small scale development of the product and processes. It’s essential to contemplate the production surroundings and system throughout the development of the method. Operators ought to target keeping in mind that the production process can run smoothly if technology transfer is enforced thoughtfully. Effective technology transfer helps to provide process efficiency and maintain product quality. 14
  • 15. Technology Transfer Team: As the team concept is always the best approach to achieve successful technology transfer projects. The core technology transfer team must be commissioned immediately following the decisions of the executive management to pursue the drug candidate to commercialization. A typical technology transfer core team will likely be comprised of individual’s representatives of the different segments of the business. The technology transfer team consists of the following members, and their responsibilities are given above. 17
  • 16. TECHNOLOGY transfer team members RESPONSIBILITIES Process Technologist a) Central focus for transfer activities. b) Collates documentation from the donor site c) Performs initial assessment of the transferred project for Feasibleness, Compatibility with site capabilities and Establishes resource needs. QA Representative d) Reviews documentation to work out compliance with marketing authorization (MA) e) Reviews analytical strategies with QC to work out capability, instrumentation training requirements. f) Initiates conversion of donor site documentation into local systems or format. g) Initiates or confirms regulatory needs, e.g., an amendment to manufacturing license; variations to MA if method changes needed, etc. Production Representative h) Reviews process instructions (with process technologist) to verify capacity and capability. i) Considers any safety implications, e.g., solvents; toxic; sanitizing materials. j) Considers the impact on local standard operating procedures (SOPs). k) Considers the training requirements of supervisors or operators. TECHNOLOGY TRANSFER TEAM MEMBERS AND THEIR RESPONSIBILITIES 15
  • 17. Engineering Representative l) Reviews (with production representative) instrumentation requirement. m) Initiates required engineering modifications, change or part purchase. n) Reviews preventative maintenance and calibration impact, e.g., use of a lot of aggressive ingredients; more temperature-sensitive method, and modifies consequently. QC Representative o) Reviews analytical requirement. p) Availability with instruments. q) Responsible for analytical technique transfer for drug substance and drug product 16
  • 18. Multiple Choice Questions 1. Technology transfer is transfer of …… from R&D to production a. Formulation information b. Analytical strategies c. Documentation d. All of the above. Ans. d. All of the above. 2. Which of the following is vertical technology transfer? a. Transfer of data from basic study to development and production. b. movement and application of technology is to be used in one place or context to a different place. c. None of the above d.All of above. Ans. a. Transfer of data from basic study to development and production. 3. Production scale typically ranges from…… a. 20 to 100 kgs b.100 to 200 kgs c. 200 to 1000 kgs d. None of above Ans. 200 to 1000 kgs. 18
  • 19. 4. Technology transfer team members are: a. QC Representative. b. Process Technologist. c. Production Representative. d. All of the above. Ans. d. All of the above. 5. Methods of technology transfer are: a. Licensing. b. Production. c. Development d. Research. Ans. Licensing. 19
  • 20. References: 1. AN OVERVIEW ON TECHNOLOGY TRANSFER OF PHARMACEUTICAL INDUSTRY Shalini et al., IJPSR, 2020; Vol. 11(2): 573-579. E-ISSN: 0975- 8232; P-ISSN: 2320-514 3. Pharmaceutical Product Development: Insights Into Pharmaceutical Processes, Management and Regulatory Affairs by Vandana B. Patravale, John I. Disouza, et al. 20