Welcome to the CMC Strategy Forum Japan 2014
On behalf of the CASSS Board of Directors and the CMC Strategy Forum Global Steering Committee, we would like to extend to you a warm welcome to the third meeting of the CMC Strategy Forum Japan 2014.
We are very pleased that with the strong support from the Pharmaceuticals and Medical Devices Agency (PMDA Japan), as well as the Japan Pharmaceutical Manufacturers Association (JPMA), and with the continued sponsorship by CASSS and the support from the United States Food and Drug Administration, that we are continuing with the CMC Strategy Forum Japan 2014. The Forum will follow the established model of the CMC Forum series with focus on topics and regulatory updates relevant for Japan and Asia and will feature an opening regulatory session that will include presentations from PMDA, FDA, EMA, Health Canada, as well as Asian health authorities. The technical sessions will include discussions on new technology of antibody engineering with focus on glycan engineering and also bi-specific antibodies, CMC considerations in accelerated approval, life cycle approach to process validation in biopharmaceuticals, as well as a session for regenerative medicines, bringing together global and Japan specific case studies.
The success of the CMC Strategy Forum Japan will depend on your active participation in discussing and raising issues pertaining to the development of biologics. We encourage you to participate whole- heartedly in the panel discussions that have been designed to stimulate exchange of ideas and information.
We would like to thank the speakers and the panel members who are giving generously of their time and resources and to you for your attendance. We would also like to acknowledge the generosity of our program partners for the continued support of the Forum series: Astellas Pharma Inc.; Baxter Limited; Biogen Idec; Chugai Pharmaceutical Co., Ltd.; Daiichi Sankyo Co., Ltd.; Eisai Co., Ltd.; F. Hoffmann- La Roche Ltd.; Kissei Pharmaceutical Co., Ltd.; Kyowa Hakko Kirin Co., Ltd.; Nippon Kayaku Co., Ltd.; Sanwa Kagaku Kenkyusho Co., Ltd.; Sumitomo Dainippon Pharma Co., Ltd. and Takeda Pharmaceutical Company Limited. We are grateful for the expert management from CASSS and the audio-visual expertise of Michael Johnston from MJ Audio-Visual Productions. Their experience and guidance in the preparation of this Forum has been invaluable.
ACKNOWLEDGEMENTS
CMC STRATEGY FORUM GLOBAL STEERING COMMITTEE
Siddharth Advant, KemWell Biopharma, USA John Dougherty, Eli Lilly and Company, USA Steven Kozlowski, CDER, FDA, USA Junichi Koga, Daiichi Sankyo Co., Ltd., Japan Rohin Mhatre, Biogen Idec, USA Anthony Mire-Sluis, Amgen Inc., USA Wassim Nashabeh, F. Hoffmann-La Roche Ltd., Switzerland (Chair) Ilona Reischl, BASG/AGES, Austria Anthony Ridgway, Health Canada, Canada Nadine Ritter, Global Biotech Experts, LLC, USA Thomas Schreitmüller, F. Hoffmann-La Roche Ltd., Switzerland Mark Schenerman, MedImmune, USA Karin Sewerin, BioTech Development AB, Sweden
Japan Scientific Organizing Committee:
Ayako Enokida, Pharmaceuticals and Medical Devices Agency (PMDA) Kimio Esumi, Pharmaceuticals and Medical Devices Agency (PMDA) Futaba Honda, Pharmaceuticals and Medical Devices Agency (PMDA) Yasuhiro Kishioka, Pharmaceuticals and Medical Devices Agency (PMDA) Junichi Koga, Daiichi Sankyo Co., Ltd. In Eui Lee, Chugai Pharmaceutical Co., Ltd. Noriyuki Matsumoto, Japan Pharmaceutical Manufacturers Association (JPMA) (Secretariat) Hisako Ohnishi, Japan Pharmaceutical Manufacturers Association (JPMA) (Secretariat) Daisaku Sato, Pharmaceuticals and Medical Devices Agency (PMDA) Yasushi Shikata, Eisai Co., Ltd. Kazuhisa Uchida, Kyowa Hakko Kirin Co., Ltd. Koji Usui, Pfizer Japan, Inc. Toyohiko Yamamoto, Asahi Kasei Pharma Corporation Reiko Yanagihara, Pharmaceuticals and Medical Devices Agency (PMDA) The Scientific Organizing Committee gratefully acknowledges the pharmaceutical and biotechnology industry for their generous support of the CMC Strategy Forum Japan 2014.
SUSTAINING DIAMOND PROGRAM PARTNER F. Hoffmann – La Roche Ltd. SUSTAINING PLATINUM PROGRAM PARTNER Biogen Idec FORUM PROGRAM PARTNERS Astellas Pharma Inc. Baxter Limited Chugai Pharmaceutical Co., Ltd. Daiichi Sankyo Co., Ltd. Eisai Co., Ltd. Kissei Pharmaceutical Co., Ltd. Kyowa Hakko Kirin Co., Ltd. Nippon Kayaku Co., Ltd. Sanwa Kagaku Kenkyusho Co., Ltd. Sumitomo Dainippon Pharma Co., Ltd. Takeda Pharmaceutical Company Limited
LEADING MEDIA PARTNERS BioProcess International International Pharmaceutical Quality MEDIA PARTNERS The Analytical Scientist BioProcessing Journal Genetic Engineering & Biotechnology News The Medicine Maker The Pathologist separationsNOW.com Technology Networks Limited
CMC Strategy Forum Japan 2014 Scientific Program Summary
Monday, 8 December 2014
06:30 – 08:15 Buffet Breakfast in Dining Café CAMELLIA (South Wing, 1st Floor)
06:30 – 10:00 Buffet Breakfast in Dining Café CAMELLIA (South Wing, 1st Floor) (for accompanying guests)
07:15 – 09:00 Coffee Service in the Maple Room
07:15 – 17:00 Registration in the Orchard Foyer
08:15 – 08:45 CASSS Welcome and Introductory Comments in the Orchard Room Wassim Nashabeh, Genentech, a Member of the Roche Group
CMC Strategy Forum Japan 2014 Welcome and Introductory Comments in the Orchard Room Takao Yamori, Pharmaceuticals and Medical Devices Agency (PMDA), Japan
Recent Trends in the Regulation of Biopharmaceutical Products in the Orchard Room Session Chairs: Anthony Ridgway, Health Canada and Yoji Sato, National Institute of Health Sciences
08:45 – 09:15 PMDA Perspective: Recent Trends in the Regulation of Biopharmaceuticals Daisaku Sato, Pharmaceuticals and Medical Devices Agency (PMDA), Japan
09:15 – 09:45 FDA Perspective: Recent Trends in the Regulation of Biopharmaceuticals Marjorie Shapiro, CDER, FDA, USA
09:45 – 10:15 European Union Regulatory Updates and Recent Developments for Biotechnology Products Niklas Ekman, Finnish Medicines Agency, Finland
10:15 – 10:45 AM Break in the Maple Room
10:45 – 11:15 Malaysia Perspective: Recent Trends in the Regulation of Biopharmaceuticals Arpah Abas, Ministry of Health Malaysia (MHM), Malaysia
11:15 – 11:45 APEC Biotherapeutic Roadmap Activity: How to Work Together with Global Initiatives Jeewon Joung, Ministry of Food and Drug Safety (MFDS), Korea Monday, 8 December continued…
11:45 – 12:15 Taiwan Regulatory Framework and CMC Requirements for Biotechnology Products Churn-Shiouh Gau, Center for Drug Evaluation (CDE), Taiwan
12:15 – 13:30 Buffet Lunch in the Maple Room
13:30 – 14:45 Panel Discussion – Questions and Answers Arpah Abas, Ministry of Health Malaysia (MHM), Malaysia Niklas Ekman, Finnish Medicines Agency, Finland Churn-Shiouh Gau, Center for Drug Evaluation (CDE), Taiwan Jeewon Joung, Ministry of Food and Drug Safety (MFDS), Korea Daisaku Sato, Pharmaceuticals and Medical Devices Agency (PMDA), Japan Marjorie Shapiro, CDER, FDA, USA
14:45 – 15:15 PM Break in the Maple Room
Aspects of Quality Evaluation and Control Corresponding to the Type of Cell-based Products for Regenerative Medicine in the Orchard Room Session Chairs: Takao Hayakawa, Kinki University and Kazuhisa Uchida, Kyowa Hakko Kirin Co., Ltd.
15:15 – 15:25 Introduction Takao Hayakawa, Kinki University, Japan
15:25 – 15:50 The European Landscape for Regenerative Medicine Margarida Menezes Ferreira, INFARMED, National Authority of Medicines and Health Products, Portugal
15:50 – 16:15 Case Study: Cell Therapy Using Accumulated Cells Launched in Japan Only Kenichiro Hata, Japan Tissue Engineering Co., Ltd., Japan
16:15 – 16:40 Case Study: Examples Relating to the Quality Control of Cell-based Products Yuuki Miyatake, Teijin Pharma Limited, Japan
16:40 – 17:40 Panel Discussion - Questions and Answers Margarida Menezes Ferreira, INFARMED, National Authority of Medicines and Health Products, Portugal Kenichiro Hata, Japan Tissue Engineering Co., Ltd., Japan Daisuke Maeda, Pharmaceuticals and Medical Devices Agency (PMDA), Japan Yuuki Miyatake, Teijin Pharma Limited, Japan Yoji Sato, National Institute of Health Sciences, Japan
17:45 – 19:15 Networking Reception in the Maple Room
19:15 Adjourn Day One
Tuesday, 9 December 2014
06:30 – 08:30 Buffet Breakfast in Dining Café CAMELLIA (South Wing, 1st Floor)
06:30 – 10:00 Buffet Breakfast in Dining Café CAMELLIA (South Wing, 1st Floor) (for accompanying guests)
07:15 – 09:00 Coffee Service in the Maple Room
07:15 – 17:00 Registration in the Orchard Foyer
Antibody Engineering Technologies and Products: Current Status and Future Prospects in the Orchard Room Session Chairs: Niklas Ekman, Finnish Medicines Agency and Nana Kawasaki, National Institute of Health Sciences
08:15 – 08:40 Effective Engineered Antibody Formats Izumi Kumagai, Tohoku University, Japan
08:40 – 09:05 Bispecific IgG Antibody against FIXa and FX to Treat Hemophilia A Manabu Wada, Chugai Pharmaceutical Co., Ltd., Japan
09:05 – 09:30 GAZYVA® / GAZYVARO™ - The Success Story of a Glyco-engineered Antibody Elisabeth Kirchisner, Roche Diagnostics GmbH, Germany
09:30 – 10:30 Panel Discussion - Questions and Answers Niklas Ekman, Finnish Medicines Agency, Finland Futaba Honda, Pharmaceuticals and Medical Devices Agency (PMDA), Japan Elisabeth Kirchisner, Roche Diagnostics GmbH, Germany Izumi Kumagai, Tohoku University, Japan Manabu Wada, Chugai Pharmaceutical Co., Ltd., Japan Teruhide Yamaguchi, Pharmaceuticals and Medical Devices Agency (PMDA), Japan
10:30 – 11:00 AM Break in the Maple Room Tuesday, 9 December continued…
Accelerated Developing Programs: Unique CMC Consideration in the Orchard Room Session Chairs: Junichi Koga, Daiichi Sankyo Co., Ltd. and Wassim Nashabeh, F. Hoffmann-La Roche Ltd.
11:00 – 11:10 Introduction Junichi Koga, Daiichi Sankyo Co., Ltd., Japan
11:10 – 11:35 CMC Considerations and Challenges for Accelerated Programs Yasuhiro Kishioka, Pharmaceuticals and Medical Devices Agency (PMDA), Japan
11:35 – 12:00 Challenges and Opportunities for Commercial Manufacturing Readiness and Launch of Breakthrough Therapy Products Earl Dye, Genentech, a Member of the Roche Group, USA
12:00 – 12:25 Risk-based Analytical Life Cycle Steps for Accelerated Products Stephan Krause, AstraZeneca Biologics, USA
12:25 – 13:25 Panel Discussion – Questions and Answers Brigitte Brake, Federal Institute for Drugs and Medical Devices, BfArM, Germany Earl Dye, Genentech, a Member of the Roche Group, USA Yasuhiro Kishioka, Pharmaceuticals and Medical Devices Agency (PMDA), Japan Stephan Krause, AstraZeneca Biologics, USA Marjorie Shapiro, CDER, FDA, USA Kazuhisa Uchida, Kyowa Hakko Kirin Co., Ltd., Japan
13:30 – 14:45 Buffet Lunch in the Maple Room
Lifecycle Approach to Process Validation in the Orchard Room Session Chairs: Kowid Ho, F. Hoffmann-La Roche Ltd. and Atsushi Matsumoto, Kyowa Hakko Kirin Co., Ltd.
14:45 – 15:10 PMDA Perspective: Regulatory Updates on Process Validation Standard Kazunobu Oyama, Pharmaceuticals and Medical Devices Agency (PMDA), Japan
15:10 – 15:35 EMA Guidance Documents on Process Validation for Biotechnology-derived Medicinal Products – A Regulatory Update Brigitte Brake, Federal Institute for Drugs and Medical Devices, BfArM, Germany
Tuesday, 9 December 2014 continued…
15:35 – 16:00 The Lifecycle of Process Validation: An Industry Case Study on Continued Process Verification Stefanie Pluschkell, Pfizer, Inc., USA
16:00 – 16:30 PM Break in the Maple Room
16:30 – 17:30 Panel Discussion – Questions and Answers Brigitte Brake, Federal Institute for Drugs and Medical Devices, BfArM, Germany Jeewon Joung, Ministry of Food and Drug Safety (MFDS), Korea Atsushi Matsumoto, Kyowa Hakko Kirin Co., Ltd., Japan Kazunobu Oyama, Pharmaceuticals and Medical Devices Agency (PMDA), Japan Stefanie Pluschkell, Pfizer, Inc., USA
17:30 – 18:00 CMC Strategy Forum Japan 2014 Recap Nadine Ritter, Global Biotech Experts, LLC, USA
18:00 – 18:15 Closing Remarks Wassim Nashabeh, Genentech, a Member of the Roche Group, USA
18:15 Adjournment
Welcome and Introductory Comments
Takao Yamori
Pharmaceuticals and Medical Devices Agency (PMDA), Japan
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Recent Trends in the Regulation of Biopharmaceutical Products
Session Chairs: Anthony Ridgway, Health Canada and Yoji Sato, National Institute of Health Sciences
In this opening scientific session, an international group of regulators representing the US FDA, EMA, MHM, MFDS, CDE and PMDA, will present their views on recent trends in the regulation of biopharmaceutical products. Within this general category, presenters will be asked to include information that will contribute to panel discussions covering three themes:
Innovative regulatory strategies for enabling the rapid development and the potential for early marketing approval of highly promising new biotherapeutic products; Areas of frequent consultations between industry and regulators, including, if applicable, cell and gene therapy, and biosimilars; International regulatory convergence and, in particular, how the picture for Asia might appear different than the global picture.
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Presenter’s Abstracts and Presentations
PMDA Perspective: Recent Trends in the Regulation of Biopharmaceuticals
Daisaku Sato
Pharmaceuticals and Medical Devices Agency, Japan
The Japanese regulation has improved its review performance over the last decade. In the current mid- term plan starting from 2014, PMDA will further shorten its review period with increasing staff size. In this presentation, we will discuss the current challenges of CMC review for biologics including post- approval changes. In addition, biosimilars update will be also touched with a focus on the issues surrounding global developments such as the choice of reference product and regional clinical data.
We will also outline Japanese new legislations for regenerative medicine (cellular and tissue-based products) enacted on 25 November 2014. It enables early patient access to promising therapies, using conditional and time-limited approval scheme in place for regenerative medical product review. At the same time, for all pharmaceuticals including biopharmaceuticals, “Forerunner package strategy” has been introduced to implement “accelerated approval” (including rolling submission). Such early access schemes would raise the issues of quality evaluation and validation during the development, due to the limited experience of batches and timeline for regulatory process. We will take an appropriate product lifecycle approach in the post-approval changes and validation and will step further global collaboration among regulators and with industries as well.
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FDA Perspective: Recent Trends in the Regulation of Biopharmaceuticals
Marjorie Shapiro
CDER, FDA, Silver Spring, MD USA
Biopharmaceuticals are among the most successful drugs on the market and represent an increasing proportion of drugs in development. The quality of these products is paramount and decisions should be made with patient needs in mind. Initiatives such as the reorganization of quality review functions at CDER, the development of biosimilar products, breakthrough designation, the lifecycle approach to process validation and challenges in understanding the impact of antibody engineering will be presented.
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European Union Regulatory Updates and Recent Developments for Biotechnology Products
Niklas Ekman
Finnish Medicines Agency, Finland
This presentation will provide an update on a number of topics which important for developing biopharmaceuticals. The new clinical trial regulation published in the Official Journal of the European Union in May 2014, will change the way clinical trials are authorized in the EU. The main goal of the regulation is to harmonize the regulatory requirements, provide high standard for patient safety, and create an environment that is favourable for conducting clinical trials. The new regulation will also increase the transparency of clinical trial data. The principles of transparency in decision making will be further strengthened by the recent decision from the EMA Management Board to publish clinical reports starting from 1 January 2015. In addition to the discussion on the clinical trials regulation and the EU transparency policy, the presentation will also summarize the current status of the EU pilot project on adaptive licensing, as well as the future directions in the field of Advanced Therapy Medicinal Products (ATMPs) based on the recent European Commission report on the ATMP regulation. Furthermore, the main activities of the CHMP Biologicals Working Party (BWP) during 2014 will be reviewed.
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Malaysia Perspective: Recent Trends in the Regulation of Biopharmaceuticals
Arpah Abas
Ministry of Health Malaysia (MHM), Malaysia
Biotechnology medicines hold some of the greatest promise for medical breakthroughs. There is a growing interest in making biosimilars, which have the potential to lead to enormous cost-savings in healthcare without reducing the level of care to patients.
Biosimilar regulatory pathway is a paradigm shift that requires demonstration of high similarity in terms of quality, safety and efficacy to the reference product. However, worldwide situation shows that the pathway is implemented rather non-homogenous particularly in developing countries. The World Health Assembly in May 2014 passed a resolution to develop the necessary scientifically-based regulatory frameworks that promote access to products that are affordable, safe, efficacious and quality, taking note of the relevant of WHO guidelines on similar biotherapeutic products (SBPs).
The next wave of biosimilars are monoclonal antibodies (mAbs) that have great potential for clinical use. As such there is much to learn and more challenges wait.
The field of cell and gene therapy products (CGTPs) is radically changing through the use of biotechnology and products are moving towards licensure. Due to their unique, diverse and complex manufacturing and the poor fit into the biologics pathway, a new framework is necessary to ensure public safety but presents numerous challenges.
Malaysia had the draft CGTPs guideline completed and on circulation now for comments. Regulation of CGTPs is still evolving, as befits a relatively young developing field. As reforms move forward, worldwide regulatory convergence and sharing knowledge and experience will be vital to effective regulation, since safety issues have no borders. The future success of biosimilars and CGTPs depends on sound science and putting patients first. Science, even with broad-band, takes time and due diligence.
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APEC Biotherapeutic Roadmap Activity: How to Work Together with Global Initiatives
Jeewon Joung
Ministry of Food and Drug Safety (MFDS), Korea
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Taiwan Regulatory Framework and CMC Requirements for Biotechnology Products
Churn-Shiouh Gau
Center for Drug Evaluation (CDE), Taiwan
Abstract and slides were not available at the time of printing.
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Recent Trends in the Regulation of Biopharmaceutical Products Plenary Session
Panel Discussion – Questions and Answers Arpah Abas, Ministry of Health Malaysia (MHM), Malaysia Niklas Ekman, Finnish Medicines Agency, Finland Churn-Shiouh Gau, Center for Drug Evaluation (CDE), Taiwan Jeewon Joung, Ministry of Food and Drug Safety (MFDS), Korea Daisaku Sato, Pharmaceuticals and Medical Devices Agency (PMDA), Japan Marjorie Shapiro, CDER, FDA, USA
The following questions will guide the panel discussion:
Theme 1) - Innovative regulatory strategies for enabling the rapid development and the potential for early marketing approval of highly promising new biotherapeutic products:
What regulatory frameworks and pathways are available for the potential accelerated approval of promising new products? What are the advantages and disadvantages of different approaches? How will regulators in emerging markets address these concepts? In some regulatory jurisdictions, evaluations of marketing applications may be streamlined if approvals have been made in certain “benchmark” regulatory agencies. How will “breakthrough”-type approaches and accelerated approval pathways, with their reliance on less well-developed data be accommodated?
Theme 2) - Areas of frequent consultations between industry and regulators, including, if applicable: cell and gene therapy and biosimilars:
What is the level of current activity and future landscape for cell and gene therapy products? What is the level of current activity and future landscape for biosimilar products?
Theme 3) - International regulatory convergence and, in particular, how the picture for Asia might appear different than the global picture:
Regarding regulatory convergence, what progress is being made at several discussion forums (e.g., APEC, ASEAN, and APAC)? What might be possible for regulatory convergence involving jurisdictions in Asia and the US FDA and EU? Are there any areas of regulatory convergence that might be Asia-specific, i.e., convergence within Asia that does not necessarily include other major regulatory jurisdictions?
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Aspects of Quality Evaluation and Control Corresponding to the Type of Cell-based Products for Regenerative Medicine
Session Chairs: Takao Hayakawa, Kinki University and Kazuhisa Uchida, Kyowa Hakko Kirin Co., Ltd.
It is expected to accelerate the development of a variety of cell therapy products along with establishment of the revised Pharmaceutical Affairs Law Including a two-step approval process to ensure separately the safety and efficacy in Japan. Therefore, it should be a good opportunity to take up this matter in CMC Strategy Forum Japan 2014.
These products are derived from the processing of human autologous or allogeneic somatic cells, human autologous or allogeneic somatic stem cells, human autologous or allogeneic induced pluripotent cells (hiPS cells) or hiPS-like cells and human embryonic stem cells by means of substantial manipulation such as propagation, differentiation of a cell, activation of a cell by pharmaceutical or chemical treatment, alteration of a biological characteristic, combination with a non-cellular component, and manipulation by genetic engineering. There are a lot of issues to be solved with respect to evaluation and quality control of these products because of variety of product type as well as potent significant inconsistency of quality attributes among the same type of product manufactured through the same procedures.
Therefore, it is necessary to discuss on general considerations and scientific principles/elements that may apply commonly to all products for ensuring their quality and safety, as well as on points to consider for specific product, taking into account source of cells, raw materials, cell banking , processing of cells, preparation of the final product, quality attributes and intended clinical use.
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Presenter’s Abstracts and Presentations
The European Landscape for Regenerative Medicine
Margarida Menezes Ferreira
INFARMED, National Authority of Medicines and Health Products, Portugal
Manipulation of tissues and cells beyond conventional transplantation as well as the development of gene therapy determined the European Commission to establish a regulatory framework to cover those extensively manipulated cells and gene based products as medicines and to regulate them centrally through a Committee for Advanced Therapies (CAT) at the European Agency for Medicines (EMA). Advanced therapies medicinal products are presently the most challenging and innovative products being developed, in the highly accelerated moving field of regenerative medicine. Scientific journals are flooded with new information on cells and their metabolism, differentiation and fate, on genes and vectors that carry and deliver them in highly controlled manner and innovative materials and processes to guide cells to generate engineered tissues. Yet, as usually happens with innovative approaches, while multiple products are under development and in clinical trials, the path to market as a pharmaceutical product has been rather slow. Their extreme intrinsic complexity in terms of substance and also their dynamic mode of action, often require a complex program to ensure consistency, safety and efficacy. The Regulation for the advanced therapy medicinal products (ATMP, established in 2007 and for application in 2009) included several innovative provisions to support an effective development of these important products. New regulatory approaches were foreseen for fuelling drug development without jeopardizing public safety. The first marketing authorization was granted in the EU to a tissue engineered product composed of chondrocytes for cartilage repair, followed by the approval of another chondrocyte product for the same indication. Successful long term results are expected with most these complex approaches that combine consistent products and good surgical practices. Other cell based medicinal products have been developed for quite some time e.g. cell based cancer immunotherapy is tried since the 90’s and it represents presently the largest number of clinical trials in Europe. One cancer immunotherapy is presently approved in the EU. Likewise, gene therapy medicinal products are getting into a mature phase being used already in clinical trials with very promising results on gene repair mainly in monogenetic diseases. The first gene therapy product was recently approved in Europe for an ultra orphan enzyme deficiency. The present talk will give an integrated view of the regulatory building blocks for the centralised marketing authorisation of ATMPs in Europe, from the particular aspects in the legislation to the relevant guidelines developed at EMA by a large group of experts from the EU member states. Particularities such as specific GMP provisions, the risk based approach, long term safety and efficacy follow-up will be addressed. The presentation will have a special focus on stem cell based medicinal products in regenerative medicine. Presently, after 5 years of ATMP Regulation implementation, intensive reflection have started to prepare a revision of the regulatory framework, to further facilitate development without jeopardising patient expectations and safety.
NOTES: Case Study: Cell Therapy Using Accumulated Cells Launched in Japan Only
Kenichiro Hata
Japan Tissue Engineering Co., Ltd., Japan
Abstract and slides were not available at the time of printing.
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Case Study: Examples Relating to the Quality Control of Cell-based Products
Yuuki Miyatake
Teijin Pharma Limited, Japan
In order to discuss the quality control regarding the cell-based products, I arranged a model case and showed examples of quality control. Please keep in mind that these examples are not the official opinion from JPMA but my personal opinion.
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Aspects of Quality Evaluation and Control Corresponding to the Type of Cell-based Products for Regenerative Medicine Workshop Session
Panel Discussion - Questions and Answers Margarida Menezes Ferreira, INFARMED, National Authority of Medicines and Health Products, Portugal Kenichiro Hata, Japan Tissue Engineering Co., Ltd., Japan Daisuke Maeda, Pharmaceuticals and Medical Devices Agency (PMDA), Japan Yuuki Miyatake, Teijin Pharma Limited, Japan Yoji Sato, National Institute of Health Sciences, Japan
The following questions will guide the panel discussion:
What type of cell-based products for regenerative medicine would be developed as commercial products? What strategy can be employed for evaluation and control of cell-based products for regenerative medicine in terms of quality and safety? Identification of scientific concepts/principles and technical elements that commonly applicable for any types of products. Identification of points to consider for specific type of product, taking into account source of cells, raw materials, cell banking , processing of cells, preparation of the final product, quality attributes, intended clinical use etc. What is a role of specifications in the overall quality control strategy of a specific product?
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Antibody Engineering Technologies and Products: Current Status and Future Prospects
Session Chairs: Niklas Ekman, Finnish Medicines Agency and Nana Kawasaki, National Institute of Health Sciences
New strategies for antibody engineering have been developed in the biopharmaceutical field. In this session, the current status of antibody engineering will be presented and issues related to, for example sugar engineering and bispecific antibodies will be discussed. In addition, specific technologies and challenges for the development of engineered antibodies will be highlighted.
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Presenter’s Abstracts and Presentations
Effective Engineered Antibody Formats
Izumi Kumagai
Tohoku University、Japan
In recent years, more than thirty monoclonal antibodies have been approved as biopharmaceutical products in many threpeutic areas, including cancer and immune disorders. From the point of view in protein tcchnology, the drastic and successful advances of antibody threpeutics have been achieved by the recombination of protein folds and motives. Antibody engineering has developed various molecular formats including IgG, smaller antibody fragments(Fab, Fv, scFv) and proteins fused with these formats, by recombination of immunoglobulin folds as structural and functional units and then generated the novel antibody functions. The engineered antibody formats and variants are now emerging as credible alternatives and possess other unique and superior properties for therapeutic applications. The typical example may be the development of bispecific antibodies.
We would focus on applications of molecular formats with bi-specificity consisting of two different scFvs(diabody). One application of the molecule is targeting effector cells to tumor cell surfaces. We previously reported the marked antitumor effects of a humanized bispecific diabody. The domains of bispecific diabodies can be ordered in four different ways. We rearranged the domains of the bispecific diabody to examine the influence of domain order on the function of bispecific diabodies. All three rearranged bispecific diabodies inhibited cancer growth more effectively than did the original bispecific diabody in which both components were in VH-VL domain order. The molecular spieces with the highest effects had comparable antitumor effects to those of the tandem scFv format(BiTE type). Further functional analyses of these formats are summarized .
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Bispecific IgG Antibody against FIXa and FX to Treat Hemophilia A
Manabu Wada
Chugai Pharmaceutical Co., Ltd., Japan
Bispecific antibody is a promising technology for antibody engineering, because its potential as a therapeutic exceeds that of combining two monospecific antibodies. ACE910, our asymmetric bispecific human IgG antibody for treating hemophilia A, exemplifies this potential by mimicking the action of coagulation factor VIII; namely, by binding to coagulation factor IXa with one arm and factor X with another. However, reducing undesired products that have mis-paired arms is key when manufacturing an asymmetric antibody. To manufacture ACE910 we have implemented several engineering technologies — common light chain, pI modification, and CH3/CH3 interface engineering — that have enabled large scale GMP production on a standard IgG production/purification platform.
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GAZYVA®/ GAZYVARO™ - The Success Story of a Glyco-engineered Antibody
Elisabeth Kirchisner
Roche Diagnostics GmbH, Germany
GAZYVA/ GAZYVARO (INN: obinutuzumab) is the first glycoengineered antibody which has been approved for commercial use. Glycoengineering was obtained by GlycoMAbTM technology. This technology is based on the co-expression of the antibody with glycosylation-modifying enzymes during cell culture which leads to a modified glycosylation pattern with reduced levels of core-fucosylation. The increased level of afucosylation results in an increase in antibody-dependent cell-mediated cytotoxicity (ADCC).
Obinutuzumab has shown increased ADCC and direct cell death activity as compared to rituximab and ofatumumab. For treatment of CLL patients in clinical trials progression-free survival was significantly longer when using obinutuzumab in combination with chlorambucil than rituximab in combination with chlorambucil or chlorambucil alone. Based on these data obinutuzumab was approved by the FDA as GAZYVA® on 1 November 2013 and as GAZYVARO™ by EMA and Swissmedic in 2014.
A full Quality by Design (QbD) approach was used for technical development of obinutuzumab. Critical Quality Attributes (CQAs) and respective acceptance criteria were identified. During process characterization and validation univariate and multivariate studies and worst-case linkage studies were performed. Critical and non-critical process parameters (CPPs/ non-CPPs) and a process-wide Design Space were identified. Based on how well CQAs are controlled by the process and how stable they are a comprehensive testing strategy was set up. The resulting release specification for Drug Substance also covers several glycostructures.
Benefits of using the QbD approach include enhanced product and process understanding, the ability to meet international Health Authority expectations and enhanced process robustness.
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Antibody Engineering Technologies and Products: Current Status and Future Prospects Workshop Session
Panel Discussion - Questions and Answers Niklas Ekman, Finnish Medicines Agency, Finland Futaba Honda, Pharmaceuticals and Medical Devices Agency (PMDA), Japan Elisabeth Kirchisner, Roche Diagnostics GmbH, Germany Izumi Kumagai, Tohoku University, Japan Manabu Wada, Chugai Pharmaceutical Co., Ltd., Japan Teruhide Yamaguchi, Pharmaceuticals and Medical Devices Agency (PMDA), Japan
The following questions will guide the panel discussion:
• What are the biological and structural features characteristic to engineered antibodies? • Are there any specific issues (e.g. with regard to technologies used) related to the development, characterization, manufacture and control of engineered antibodies? • Compared to conventional monoclonal antibodies, are there any additional CMC issues to be considered for NDA approval of engineered antibodies? • Current promises and future hopes; how do patients benefit from engineered antibodies?
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Accelerated Developing Programs: Unique CMC Considerations
Session Chairs: Junichi Koga, Daiichi Sankyo Co., Ltd. and Wassim Nashabeh, F. Hoffmann-La Roche Ltd.
A breakthrough therapy approval and an adaptive licensing program have started in US and in EU, respectively. More recently, in Japan, SAKIGAKE designation system has been introduced. These initiatives encourage industries to deliver a better drug faster to patients. Meanwhile, industries are required to collect sufficient data or rationale to set an appropriate control strategy within a short period of time.
This session will discuss on the unique CMC considerations for more accelerated CMC developments in each stage of prior to and post approvals, and share the lessons learned from the accelerated CMC development or marketing authorization application review for the breakthrough therapy.
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Presenter’s Abstracts and Presentations
CMC Considerations and Challenges for Accelerated Programs
Yasuhiro Kishioka
Pharmaceuticals and Medical Devices Agency (PMDA), Japan
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Challenges & Opportunities for Commercial Manufacturing Readiness and Launch of Breakthrough Drug Products
Earl Dye
Genentech, a Member of the Roche Group, USA
The Advancing Breakthrough Therapies for Patients Act was included as a component of the 2012 re- authorization of the Prescription Drug User Fee Act to expedite development of new, potential “breakthrough” therapies. This legislation specifies that a new drug may be designated as a Breakthrough Therapy if it is intended to treat a serious or life-threatening disease, and preliminary clinical evidence suggests that it provides a substantial improvement over existing therapies. Upon designation, the FDA and sponsor collaborate in a dynamic, multi-functional process to determine the most efficient path forward. This expedited approach to the design of the clinical program could potentially reduce development timelines from 7-10 years to 3-5 years, necessitating a different approach to product and process development, and commercial readiness, launch and regulatory filings.
A cross functional team modeled accelerated timelines for large and small molecule products assuming a typical clinical development program for a breakthrough product would be five years, including 1-2 years to generate sufficient preliminary clinical information to qualify for breakthrough therapy designation, and an additional 2-3 years to complete the pivotal studies, file an application and launch the product. To complete all the necessary activities within these accelerated time lines required front loading certain product and process development activities earlier, truncating phase III process optimization to focus on reliability of the phase l cell line process and formulation to ensure a reliable supply of quality product at launch. Key considerations for success relied on leveraging prior knowledge and platform data, use of comparability protocols, and flexible manufacturing arrangements for potential launch from a clinical facility. This presentation will discuss the manufacturing development and launch considerations for breakthrough therapies, together with the assumptions and considerations that went into the design of the accelerated timelines.
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Risk-based Analytical Life Cycle Steps for Accelerated Products
Stephan Krause
AstraZeneca Biologics, USA
Accuracy and reliability of analytical methods should be assured throughout the product life cycle. Strategies for the analytical method lifecycle steps will be discussed with the intent to minimize the risk of potential product development/approval delay. This presentation will cover risk-based processes for analytical method qualification, transfer, and validation. The presentation will specifically focus on opportunities to use prior experience (ex., analytical platform technology) to support accelerated product development and process validation studies. The goal is to understand how analytical platform technology and parallel (versus sequential) analytical method and specification lifecycle steps can greatly support accelerated development programs.
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Accelerated Developing Programs: Unique CMC Considerations Workshop Session
Panel Discussion – Questions and Answers Brigitte Brake, Federal Institute for Drugs and Medical Devices, BfArM, Germany Earl Dye, Genentech, a Member of the Roche Group, USA Yasuhiro Kishioka, Pharmaceuticals and Medical Devices Agency (PMDA), Japan Stephan Krause, AstraZeneca Biologics, USA Marjorie Shapiro, CDER, FDA, USA Kazuhisa Uchida, Kyowa Hakko Kirin Co., Ltd., Japan
The following questions will guide the panel discussion:
• What are the regulatory expectations on accelerated developing programs for CMC? • What regulations are the most challenging for the accelerated CMC development? What is the alternative approach to be considered? • Among CMC development, which parts are having possibility to speed up? • How do you set specifications for drug substance and drug product with limited information or limited period, for instances, few of manufacturing data, low frequency of clinical trials, or the results from scale-down study? • How do you set the expiry date with the short-term stability test data using pilot runs?
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Lifecycle Approach to Process Validation
Session Chairs: Kowid Ho, F. Hoffmann-La Roche Ltd. and Atsushi Matsumoto, Kyowa Hakko Kirin Co., Ltd.
The product lifecycle concept was introduced in ICH Q8 and Q10 guidelines. The application of process performance and product quality monitoring system throughout the product lifecycle is encouraged for the assurance of product quality in ICH Q10 guideline.
To incorporate this concept, FDA guidance on process validation was revised in 2011. For the harmonization with FDA guidance, MHLW revised the notices of GMP/QMS upon enforcement of the Pharmaceutical Affairs Act in 2013. EMA revised the process validation guideline in 2014.
The purpose of this session is to discuss how this new concept should be applied to the process validation for biopharmaceuticals and how the process validation strategy should be presented in marketing application dossier.
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Presenter’s Abstracts and Presentations
PMDA Perspective: Regulatory Updates on Process Validation Standard
Kazunobu Oyama
Pharmaceuticals and Medical Devices Agency (PMDA), Japan
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EMA Guidance Documents on Process Validation for Biotechnology-derived Medicinal Products – A Regulatory Update
Brigitte Brake
Federal Institute for Drugs and Medical Devices, BfArM, Germany
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The Lifecycle of Process Validation: An Industry Case Study on Continued Process Verification
Stefanie Pluschkell
Pfizer Inc., USA (on behalf of BPOG)
This presentation reports on a cross-company collaboration on Continued Process Verification (CPV) in response to the FDA’s 2011 process validation guidance (“Stage 3”). Created by representatives from 24 companies, with facilitation from the BioPhorum Operations Group (BPOG) (www.biophorum.com), the presentation describes approaches to implementing CPV and offers specific recommendations on the content of a CPV Plan. CPV encompasses a written plan for continued monitoring of a licensed biopharmaceutical manufacturing process, providing a basis from which to assure maintenance of the validated state, improve process understanding, the control strategy, and ultimately the robustness of the manufacturing process itself. These recommendations are based on a typical cell culture production process for making a fictitious monoclonal antibody drug substance, as described in the ‘A-Mab Case Study’. Consequently, not all of the details are going to apply directly to actual products or processes. However, the concepts and principles upon which the content of this case study was derived should help with CPV implementation for a real product. The presentation will include concepts and examples of how to apply quality risk management principles (ICHQ9) to generate an effective process monitoring plan as well as a risk-based decision tree to determine if and to what extent observed trends should be responded to. CPV execution may involve examination of already existing process control measurements and/or the use of improved methodologies for data tracking and analysis. Enhanced monitoring of process performance provides the opportunity to identify and control sources of variation and hence improve process robustness, increasing the assurance of reliable product supply to the market. The intent is to discuss some of the challenges and potential complications associated with the implementation of CPV, and to increase understanding of region-specific perspectives on the value of CPV in the context of a lifecycle approach to process validation.
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Lifecycle Approach to Process Validation Workshop Session
Panel Discussion – Questions and Answers Brigitte Brake, Federal Institute for Drugs and Medical Devices, BfArM, Germany Jeewon Joung, Ministry of Food and Drug Safety (MFDS), Korea Atsushi Matsumoto, Kyowa Hakko Kirin Co., Ltd., Japan Kazunobu Oyama, Pharmaceuticals and Medical Devices Agency (PMDA), Japan Stefanie Pluschkell, Pfizer, Inc., USA
The following questions will guide the panel discussion:
What information and knowledge from product and process development needs to be collected for the risk assessment together with the development of process validation (PV) strategy? What are the issues that may cause difficulties with the implementation of the new PV concept for biopharmaceuticals? How do we present the rationale of PV strategy in dossier to efficiently share the PV strategy with the review?
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