Cell Therapy Manufacturing Market by Type of Cell Manufactured (Immune Cells, Stem Cells and Others ), Source of Cell (Autologous and Allogeneic), Scale of Operation (Preclinical, Clinical and Commercial), Purpose of Manufacturing (In-house and Contract) and Key Geographical Regions (North America, Europe, Asia Pacific and Rest of the World): Industry Trends and Global Forecasts (5th Edition), 2022-2035

Name: Cell Therapy Manufacturing Market by Type of Cell Manufactured (Immune Cells, Stem Cells and Others ), Source of Cell (Autologous and Allogeneic), Sca
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January 2023 | 553 pages | ID: C9635327C9B2EN
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Abstracts
Contents

The cell therapy manufacturing market is expected to reach USD 4.5 billion in 2022 anticipated to grow at a CAGR of 12% during the forecast period 2022-2035.

Cellular therapies have garnered considerable attention in the healthcare sphere due to their promising potential in treating rare disorders. Notably, more than 1,035 clinical studies focusing on these therapies have commenced since 2019. Certain commercialized cell therapies, such as Kymriah®, have achieved significant sales exceeding USD 1.5 billion since their launch in 2018. As the clinical benefits of these biologic drugs are increasingly validated, there is a heightened emphasis on refining the cell therapy manufacturing process. Efforts have been directed towards developing advanced automation tools, such as the emerging concept of GMP-In-A Box, aimed at reducing manufacturing costs associated with these intricate therapeutic products. However, the complexity of cell therapy manufacturing poses challenges to complete automation. Additionally, the lack of specialized infrastructure and expertise in this field hampers progress.

The current market landscape for cell therapy manufacturing is diverse, encompassing in-house manufacturers and contract service providers. Many innovator companies in this domain offer contract services alongside their in-house capabilities to optimize resource utilization and generate additional revenue. To meet the growing demand for cell therapies, industry players are expanding their capacities, leading to a noticeable surge in partnerships and expansions within the cell therapy domain starting in 2020. The involvement of major pharmaceutical companies has significantly bolstered the adoption of these therapies. Big pharma players have initiated strategic partnerships and expansion projects to strengthen their cell therapy manufacturing capabilities. With stakeholders persistently striving to overcome manufacturing challenges and a heightened focus on advancing these therapies, the cell therapy manufacturing market is poised for substantial growth in the forecasted future.

Report Coverage

The report conducts an examination of the cell therapy manufacturing market, focusing on the types of cells produced, cell sources, operational scales, manufacturing purposes, and key geographical regions.
It evaluates the factors—such as drivers, restraints, opportunities, and challenges—that impact market growth.
The report assesses both the potential advantages and obstacles within the market, providing insights into the competitive landscape for top market players.
Revenue forecasts for market segments are provided concerning four major regions.
A comprehensive review covers multiple aspects of cell therapy manufacturing, commencing with an overview that encompasses challenges and influencers within the market. It also explores automation tools and technologies enhancing manufacturing processes, along with future prospects.
Extensive analysis of the market landscape involves examining key players engaged in manufacturing cell-based therapies. This includes details on cell types produced (immune cells, stem cells, etc.), cell sources (autologous, allogeneic), operational scales (preclinical, clinical, commercial), purposes (in-house, contract services), offered capabilities/services (R&D, quality testing, etc.), and global headquarters and manufacturing facilities.
Discussion extends to cell therapy manufacturing regulations across various regions (North America focusing on the US, Europe, Asia with emphasis on Japan and China), encompassing diverse certifications from regulatory bodies.
The overview includes global agencies' roadmaps aiming to advance cell therapy manufacturing processes. It delves into the role of technology automation, comparing costs between manual and automated processes.
Detailed profiles of industry players providing cell therapy manufacturing services at clinical and commercial scales are presented. This includes their service portfolios, capabilities, facilities, recent partnerships, and future prospects. Similarly, profiles of non-industry players in this domain are outlined.
Examination of non-profit organizations' roles in cell-based therapy development across different regions, along with international/national societies disseminating related knowledge.
Analysis of completed, ongoing, and planned clinical trials is presented, covering parameters like trial phases, sponsors, therapeutic areas, and industry/non-industry players involved. Recent partnerships in cell therapy manufacturing (2016-2022), collaborations, and expansion initiatives undertaken by service providers during the same period are explored.
Initiatives by big pharma in cell therapy manufacturing, installed capacity estimates, annual demand projections, factors influencing pricing, considerations for in-house manufacturing versus CMO engagement, and comprehensive representations (3D grid analysis, logo landscapes, world maps) of cell therapy manufacturers' distribution are included.
The study concludes by summarizing key insights derived from the gathered information, emphasizing details of cell therapy manufacturing providers across continents.
Furthermore, affiliated trends, key drivers, challenges, and industry impacts are analyzed using a SWOT framework, showcasing their relative effects through a Harvey ball analysis.
Insights derived from a market-wide survey, capturing inputs from experts involved in cell-based therapy development and manufacturing, are synthesized.

Key Market Companies

AGC Biologics
Charles River Laboratories
KBI Biopharma
Thermo Fisher Scientific
BioNTech Innovative Manufacturing Services
Cell and Gene Therapy Catapult
Lonza
RoslinCT
Cell Therapies
FUJIFILM Cellular Dynamics
Minaris Regenerative Medicine
MEDINET
Nikon CeLL Innovation
WuXi AppTec

1. PREFACE

1.1. Scope of the Report
1.2. Market Segmentations
1.3. Research Methodology
1.4. Key Questions Answered
1.5. Chapter Outlines

2. EXECUTIVE SUMMARY

2.1. Chapter Overview

3. INTRODUCTION

3.1. Chapter Overview
3.2. Introduction to Cell-based Therapies
  3.2.1. Comparison of Cell-based Therapies and Other Biotechnological Products
  3.2.2. Classification of Advanced Therapy Medicinal Products (ATMPs)
  3.2.3. Current Market Landscape of ATMPs
3.3. Overview of Cell Therapy Manufacturing
3.4. Cell Therapy Manufacturing Models
  3.4.1. Centralized Manufacturing
  3.4.2. Decentralized Manufacturing
3.5. Scalability of Cell Therapy Manufacturing Processes
  3.5.1. Scale-up
  3.5.2. Scale-out
3.6. Types of Cell Therapy Manufacturers
3.7. Key Challenges for Manufacturing Cell Therapies
3.8. Key Factors Influencing Cell Therapy Manufacturing
  3.8.1. Characterization
  3.8.2. Cost of Goods
3.9. Automation of Cell Therapy Manufacturing Processes
3.10. Cell Therapy Manufacturing Supply Chain
3.11. Future Perspectives

4. MARKET OVERVIEW

4.1. Chapter Overview
4.2. Cell Therapy Manufacturing (Industry Players): Overall Market Landscape
  4.2.1. Analysis by Company Size
  4.2.2. Analysis by Year of Establishment
  4.2.3. Analysis by Location of Headquarters
  4.2.4. Analysis by Company Size and Location of Headquarters
  4.2.5. Analysis by Year of Establishment and Location of Headquarters
  4.2.6. Analysis by Location of Manufacturing Facility
  4.2.7. Analysis by Type of Manufacturer
  4.2.8. Analysis by Location of Headquarters and Type of Manufacturer
  4.2.9. Analysis by Type of Cell Manufactured
  4.2.10. Analysis by Company Size and Type of Cell Manufactured
  4.2.11. Analysis by Location of Headquarters and Type of Cell Manufactured
  4.2.12. Analysis by Source of Cells
  4.2.13. Analysis by Type of Cell Manufactured and Source of Cells
  4.2.14. Analysis by Scale of Operation
  4.2.15. Analysis by Manufacturing Capabilities / Services Offered
  4.2.16. Analysis by Company Size and Services Offered
  4.2.17. Analysis by Year of Establishment, Location of Headquarters and Services Offered
4.3. Cell Therapy Manufacturing (Non-Industry Players): Overall Market Landscape
  4.3.1. Analysis by Organization Size
  4.3.2. Analysis by Year of Establishment
  4.3.3. Analysis by Location of Headquarters
  4.3.4. Analysis by Organization Size and Location of Headquarters
  4.3.5. Analysis by Year of Establishment and Location of Headquarters
  4.3.6. Analysis by Location of Manufacturing Facility
  4.3.7. Analysis by Type of Manufacturer
  4.3.8. Analysis by Location of Headquarters and Type of Manufacturer
  4.3.9. Analysis by Type of Cell Manufactured
  4.3.10. Analysis by Organization Size and Type of Cell Manufactured
  4.3.11. Analysis by Location of Headquarters and Type of Cell Manufactured
  4.3.12. Analysis by Source of Cells
  4.3.13. Analysis by Type of Cell Manufactured and Source of Cells
  4.3.14. Analysis by Scale of Operation
  4.3.15. Analysis by Manufacturing Capabilities / Services Offered
  4.3.16. Analysis by Organization Size and Services Offered
  4.3.17. Analysis by Year of Establishment, Location of Headquarters and Services Offered

5. REGULATORY LANDSCAPE

5.1. Chapter Overview
5.2. Current Scenario
  5.2.1. Regulatory Guidelines in North America
  5.2.2. Regulatory Guidelines in Europe
  5.2.3. Regulatory Guidelines in Japan
  5.2.4. Regulatory Guidelines in China
  5.2.5. Conditional Approvals
5.3. Regulatory Accreditations for Cell Therapy Manufacturing
  5.3.1. Facilities Approved by Regulators to Manufacture Cell Therapies
5.4. Summary of Guidelines for Clinical-Stage Manufacturing of Cell Therapies
5.5. Existing Challenges to Clinical-Stage Manufacturing of Cell Therapies
  5.5.1. Variability in Regulatory Guidelines across Different Geographies

6. ROADMAPS FOR OVERCOMING CHALLENGES

6.1. Chapter Overview
6.2. Roadmap for the US
  6.2.1. Cell Processing
  6.2.2. Cell Preservation, Distribution and Handling
  6.2.3. Process Automation and Data Analytics
  6.2.4. Process Monitoring and Quality Control
  6.2.5. Standardization and Regulatory Support
  6.2.6. Workforce Development
  6.2.7. Supply Chain and Logistics
6.3. Roadmaps for Other Geographies
  6.3.1. Europe
  6.3.2. Asia Pacific

7. AUTOMATION TECHNOLOGIES FOR CELL THERAPY MANUFACTURING

7.1. Chapter Overview
7.2. Automation of Cell Therapy Manufacturing Processes
  7.2.1. Closed Systems
  7.2.2. Single-use Systems
  7.2.3. Modular Systems
7.3. Growth Drivers and Roadblocks
7.4. Case Studies
  7.4.1. Roadmap to Develop an Automated Cell Manufacturing / Processing Device
  7.4.2. Automating the Cell Therapy Manufacturing Process
7.5. GMP-in-a-Box
7.6. List of Automated and Closed Cell Therapy Processing Systems
7.7. Comparative Analysis of Manual and Automated Processes

8. PROFILES: INDUSTRY PLAYERS

8.1. Chapter Overview
8.2. Service Providers in North America
  8.2.1 AGC Biologics
    8.2.1.1. Company Overview
    8.2.1.2. Service Portfolio
    8.2.1.3. Manufacturing Facilities and Capabilities
    8.2.1.4. Recent Developments and Future Outlook
  8.2.2. Charles River Laboratories
    8.2.2.1. Company Overview
    8.2.2.2. Service Portfolio
    8.2.2.3. Manufacturing Facilities and Capabilities
    8.2.2.4. Recent Developments and Future Outlook
  8.2.3. KBI Biopharma
    8.2.3.1. Company Overview
    8.2.3.2. Service Portfolio
    8.2.3.3. Manufacturing Facilities and Capabilities
    8.2.3.4. Recent Developments and Future Outlook
  8.2.4. Thermo Fisher Scientific
    8.2.4.1. Company Overview
    8.2.4.2. Service Portfolio
    8.2.4.3. Manufacturing Facilities and Capabilities
    8.2.4.4. Recent Developments and Future Outlook
8.3. Service Providers in Europe
  8.3.1. BioNTech Innovative Manufacturing Services
    8.3.1.1. Company Overview
    8.3.1.2. Service Portfolio
    8.3.1.3. Manufacturing Facilities and Capabilities
    8.3.1.4. Recent Developments and Future Outlook
  8.3.2. Cell and Gene Therapy Catapult
    8.3.2.1. Company Overview
    8.3.2.2. Service Portfolio
    8.3.2.3. Manufacturing Facilities and Capabilities
    8.3.2.4. Recent Developments and Future Outlook
  8.3.3. Lonza
    8.3.3.1. Company Overview
    8.3.3.2. Service Portfolio
    8.3.3.3. Manufacturing Facilities and Capabilities
    8.3.3.4. Recent Developments and Future Outlook
  8.3.4. RoslinCT
    8.3.4.1. Company Overview
    8.3.4.2. Service Portfolio
    8.3.4.3. Manufacturing Facilities and Capabilities
    8.3.4.4. Recent Developments and Future Outlook
8.4. Service Providers in Asia Pacific
  8.4.1. Cell Therapies
    8.4.1.1. Company Overview
    8.4.1.2. Service Portfolio
    8.4.1.3. Manufacturing Facilities and Capabilities
    8.4.1.4. Recent Developments and Future Outlook
  8.4.2. FUJIFILM Cellular Dynamics
    8.4.2.1. Company Overview
    8.4.2.2. Service Portfolio
    8.4.2.3. Manufacturing Facilities and Capabilities
    8.4.2.4. Recent Developments and Future Outlook
  8.4.3. Minaris Regenerative Medicine
    8.4.3.1. Company Overview
    8.4.3.2. Service Portfolio
    8.4.3.3. Manufacturing Facilities and Capabilities
    8.4.3.4. Recent Developments and Future Outlook
  8.4.4. MEDINET
    8.4.4.1. Company Overview
    8.4.4.2. Service Portfolio
    8.4.4.3. Manufacturing Facilities and Capabilities
    8.4.4.4. Recent Developments and Future Outlook
  8.4.5. Nikon CeLL Innovation
    8.4.5.1. Company Overview
    8.4.5.2. Service Portfolio
    8.4.5.3. Manufacturing Facilities and Capabilities
    8.4.5.4. Recent Developments and Future Outlook
  8.4.6. WuXi AppTec
    8.4.6.1. Company Overview
    8.4.6.2. Service Portfolio
    8.4.6.3. Manufacturing Facilities and Capabilities
    8.4.6.4. Recent Developments and Future Outlook

9. PROFILES: NON-INDUSTRY PLAYERS

9.1. Chapter Overview
9.2. Center for Cell and Gene Therapy, Baylor College of Medicine
  9.2.1. Overview
  9.2.2. Operating Segments
  9.2.3. Service Portfolio
  9.2.4. Manufacturing Facilities and Capabilities
9.3. Centre for Cell Manufacturing Ireland, National University of Ireland
  9.3.1. Overview
  9.3.2. Service Portfolio
  9.3.3. Manufacturing Facilities and Capabilities
9.4. Clinical Cell and Vaccine Production Facility, University of Pennsylvania
  9.4.1. Overview
  9.4.2. Service Portfolio
  9.4.3. Manufacturing Facilities and Capabilities
9.5. Guy’s and St. Thomas’ GMP Facility, Guy’s Hospital
  9.5.1. Overview
  9.5.2. Service Portfolio
  9.5.3. Manufacturing Facilities and Capabilities
9.6. Laboratory for Cell and Gene Medicine, Stanford University
  9.6.1. Overview
  9.6.2. Service Portfolio
  9.6.3. Manufacturing Facilities and Capabilities
9.7. Molecular and Cellular Therapeutics, University of Minnesota
  9.7.1. Overview
  9.7.2. Service Portfolio
  9.7.3. Manufacturing Facilities and Capabilities
9.8. Newcastle Cellular Therapies Facility, Newcastle University
  9.8.1. Overview
  9.8.2. Service Portfolio
  9.8.3. Manufacturing Facilities and Capabilities
9.9. Rayne Cell Therapy Suite, King’s College London
  9.9.1. Overview
  9.9.2. Manufacturing Facilities and Capabilities
9.10. Scottish National Blood Transfusion Services Cellular Therapy Facility, Scottish Centre for Regenerative Medicine
  9.10.1. Overview
  9.10.2. Manufacturing Facilities and Capabilities
9.11. Sydney Cell and Gene Therapy
  9.11.1. Overview
  9.11.2. Manufacturing Facilities and Capabilities

10. ROLE OF NON-PROFIT ORGANIZATIONS

10.1. Chapter Overview
10.2. Cell Therapy Manufacturing: Non-Profit Organizations
  10.2.1. CellCAN
  10.2.2. Cell Therapy Manufacturing Cooperative Research Center
  10.2.3. National Cell Manufacturing Consortium (NCMC)
  10.2.4. California Institute of Regenerative Medicine (CIRM)
10.3. Cell Therapy Manufacturing: International Societies

11. CLINICAL TRIAL ANALYSIS

11.1. Chapter Overview
11.2. Scope and Methodology
11.3. Cell Therapies: Clinical Trial Analysis
  11.3.1. Analysis by Trial Registration Year
  11.3.2. Analysis of Enrolled Patient Population by Trial Registration Year
  11.3.3. Analysis by Trial Status
  11.3.4. Analysis by Trial Registration Year and Trial Status
  11.4.5. Analysis by Trial Phase
  11.4.6. Analysis of Enrolled Patient Population Trial Phase
  11.4.7. Analysis by Type of Sponsor / Collaborator
  11.4.8. Analysis by Patient Segment
  11.4.9. Analysis by Study Design
  11.4.10. Most Active Players: Analysis by Number of Registered Trials
  11.4.11. Analysis by Number of Trials and Geography
  11.4.12. Analysis by Number of Trials, Trial Status and Geography
  11.4.13. Analysis by Enrolled Patient Population, Trial Status and Geography

12. PARTNERSHIPS AND COLLABORATIONS

12.1. Chapter Overview
12.2. Partnership Models
12.3. Cell Therapy Manufacturing: List of Partnerships
  12.3.1. Analysis by Year of Partnership
  12.3.2. Analysis by Type of Partnership
  12.3.3. Analysis by Year and Type of Partnership
12.4. Analysis by Type of Cell Manufactured
12.5. Analysis by Scale of Operation
12.6. Analysis by Region
  12.6.1. Continent-wise Distribution
  12.6.2. Country-wise Distribution
12.7. Most Active Players: Analysis by Number of Partnerships
12.8. Cell Therapy Manufacturing: List of Mergers and Acquisitions
  12.8.1. Analysis by Year of Agreement
  12.8.2. Analysis by Type of Agreement
  12.8.3. Analysis by Year of Acquisition and Type of Cell Manufactured
  12.8.4. Analysis by Region
    12.8.4.1. Continent-wise Distribution
    12.8.4.2. Country-wise Distribution
    12.8.4.3. Intercontinental and Intracontinental Deals
  12.8.5. Ownership Change Matrix

13. RECENT EXPANSIONS

13.1. Chapter Overview
13.2. Cell Therapy Manufacturing: List of Expansions
  13.2.1. Cumulative Year-wise Distribution
  13.2.2. Analysis by Type of Expansion
  13.2.3. Analysis by Types of Cells Manufactured
  13.2.4. Analysis by Scale of Operation
  13.2.5. Analysis by Location of Manufacturing Facility
  13.2.6. Analysis by Type of Expansion and Location of Manufacturing Facility
  13.2.7. Most Active Players: Analysis by Number of Expansions
  13.2.8. Most Active Players: Analysis by Area of Expansion
  13.2.9. Analysis by Year and Location of Manufacturing Facility

14. BIG PHARMA INITIATIVES

14.1. Chapter Overview
14.2. Big Pharma Players: List of Cell Therapy Manufacturing Focused Initiatives, 2017-2022
  14.2.1. Analysis by Number of Initiatives
  14.2.2. Analysis by Year of Initiative
  14.2.3. Analysis by Type of Initiative
    14.2.3.1. Analysis by Type of Partnership
    14.2.3.2. Analysis by Type of Expansion
  14.2.4. Analysis by Types of Cells Manufactured
  14.2.5. Analysis by Scale of Operation
  14.2.6. Analysis of Big Pharma Players by Year of Initiative
  14.2.7. Analysis by Year and Type of Initiative
  14.2.8. Analysis of Big Pharma Players by Types of Cells Manufactured
  14.2.9. Analysis of Big Pharma Players by Scale of Operation
14.3. Competitive Benchmarking of Big Pharmaceutical Players
  14.3.1. Harvey Ball Analysis: Big Pharma Initiatives Summary
  14.3.2. Spider Web Analysis: Big Pharmaceutical Players

15. CAPACITY ANALYSIS

15.1. Chapter Overview
15.2. Key Assumptions and Methodology (Industry Players)
  15.2.1 Cell Therapy Manufacturing: Installed Global Capacity (Number of Cleanrooms)
    15.2.1.1. Analysis by Company Size
    15.2.1.2. Analysis by Scale of Operation
    15.2.1.3. Analysis by Location of Manufacturing Facility
    15.2.1.4. Analysis by Company Size and Location of Manufacturing Facility
    15.2.1.5. Analysis by Scale of Operation and Location of Manufacturing Facility
  15.2.2. Cell Therapy Manufacturing: Installed Global Capacity (Cleanroom Area)
    15.2.2.1. Analysis by Company Size
    15.2.2.2. Analysis by Scale of Operation
    15.2.2.3. Analysis by Location of Manufacturing Facility
    15.2.2.4. Analysis by Company Size and Location of Manufacturing Facility
    15.2.2.5. Analysis by Scale of Operation and Location of Manufacturing Facility
15.3. Key Assumptions and Methodology (Non-Industry Players)
  15.3.1. Cell Therapy Manufacturing: Installed Global Capacity (Number of Cleanrooms)
    15.3.1.1. Analysis by Scale of Operation
    15.3.1.2. Analysis by Location of Manufacturing Facility
  15.3.2. Cell Therapy Manufacturing: Installed Global Capacity (Cleanroom Area)
    15.3.2.1. Analysis by Scale of Operation
    15.3.2.2. Analysis by Location of Manufacturing Facility
15.4 Concluding Remarks

16. DEMAND ANALYSIS

16.1 Chapter Overview
16.2 Scope and Methodology
16.3 Global Demand for Cell Therapy Manufacturing
16.4 Global Clinical Demand for Cell Therapy Manufacturing
  16.4.1. Analysis by Type of Cell Therapy
  16.4.2. Analysis by Geography
16.5. Global Commercial Demand for Cell Therapy Manufacturing
  16.5.1. Analysis by Type of Cell Therapy
  16.5.2. Analysis by Geography

17. COST PRICE ANALYSIS

17.1. Chapter Overview
17.2. Factors Contributing to the High Price of Cell Therapies
17.3. Pricing Models for Cell Therapies
  17.3.1. Based on Associated Costs for T-Cell Therapies
  17.3.2. Based on Associated Costs for Stem Cell Therapies
  17.3.3. Based on Availability of Competing Products
  17.3.4. Based on Target Patient Segment
  17.3.5. Based on the Opinions of Industry Experts
17.4. Cell Therapy Cost Optimization
  17.4.1. Role of Cost of Goods Sold
  17.4.2. Role of Automation
17.5. Role of Cell Therapy Contract Manufacturing Organizations
17.6. Reimbursement-related Considerations for Cell Therapies
  17.6.1. Case Study: The National Institute for Health and Care Excellence’s (NICE) Appraisal of CAR-T Therapies

18. MAKE VERSUS BUY DECISION MAKING FRAMEWORK

18.1. Chapter Overview
18.2. Assumptions and Key Parameters
18.3. Cell Therapy Manufacturing: Make versus Buy Decision Making
  18.3.1. Scenario
  18.3.2. Scenario
  18.3.3. Scenario
  18.3.4. Scenario
18.4. Concluding Remarks

19. TOTAL COST OF OWNERSHIP FOR CELL THERAPY MANUFACTURING ORGANIZATIONS

19.1. Chapter Overview
19.2. Key Parameters
19.3. Assumptions and Methodology
19.4. Sample Dataset for the Estimation of Total Cost of Ownership
19.5. Total Cost of Ownership for Mid-sized Cell Therapy Manufacturing Organizations, Y0-Y20
19.6 Total Cost of Ownership for Mid-sized Cell Therapy Manufacturing Organizations: Analysis by CAPEX and OPEX, Y0 and Y20
  19.6.1. Total Cost of Ownership for Mid-sized Cell Therapy Manufacturing Organizations: Analysis by CAPEX, Y0
19.6. Total Cost of Ownership for Mid-sized Cell Therapy Manufacturing Organizations: Analysis by OPEX, Y1-Y20

20. MARKET SIZING AND OPPORTUNITY ANALYSIS

20.1. Chapter Overview
20.2. Scope of the Forecast
20.3. Input Data and Key Assumptions
20.4. Forecast Methodology
20.5. Global Cell Therapy Manufacturing Market, 2022-2035
  20.5.1. Cell Therapy Manufacturing Market: Analysis by Type of Cell Therapy, 2022-2035
  20.5.2. Cell Therapy Manufacturing Market: Analysis by Source of Cells, 2022-2035
  20.5.3. Cell Therapy Manufacturing Market: Analysis by Scale of Operation, 2022-2035
  20.5.4. Cell Therapy Manufacturing Market: Analysis by Purpose of Manufacturing, 2022-2035
  20.5.5. Cell Therapy Manufacturing Market: Analysis by Region, 2022-2035
20.6. Cell Therapy Manufacturing Market for Commercial Scale Manufacturing
  20.6.1. Global Commercial Scale Manufacturing Market for T-cell Therapies, 2022-2035
    20.6.1.1. Commercial Scale Manufacturing Market for T-cell Therapies, 2022-2035: Analysis by Type of Therapy
    20.6.1.2. Commercial Scale Manufacturing Market for T-cell Therapies, 2022-2035: Analysis by Source of Cells
    20.6.1.3. Commercial Scale Manufacturing Market for T-cell Therapies, 2022-2035: Analysis by Region
  20.6.2. Global Commercial Scale Manufacturing Market for NK Cell Therapies, 2022-2035
    20.6.2.1. Commercial Scale Manufacturing Market for NK Cell Therapies, 2022-2035: Analysis by Source of Cells
    20.6.2.2. Commercial Scale Manufacturing Market for NK Cell Therapies, 2022-2035: Analysis by Region
  20.6.3. Global Commercial Scale Manufacturing Market for Dendritic Cell Therapies, 2022-2035
    20.6.3.1. Commercial Scale Manufacturing Market for Dendritic Cell Therapies, 2022-2035: Analysis by Region
  20.6.4. Global Commercial Scale Manufacturing Market for Stem Cell Therapies, 2022-2035
    20.6.4.1. Commercial Scale Manufacturing Market for Stem Cell Therapies, 2022-2035: Analysis by Source of Cells
    20.6.4.2. Commercial Scale Manufacturing Market for Stem Cell Therapies, 2022-2035: Analysis by Region
20.7. Cell Therapy Manufacturing Market for Clinical Scale Manufacturing
  20.7.1. Global Clinical Scale Manufacturing Market for T-cell Therapies, 2022-2035
    20.7.1.1. Clinical Scale Manufacturing Market for T-cell Therapies, 2022-2035: Analysis by Type of Therapy
    20.7.1.2. Clinical Scale Manufacturing Market for T-cell Therapies, 2022-2035: Analysis by Source of Cells
    20.7.1.3. Clinical Scale Manufacturing Market for T-cell Therapies, 2022-2035: Analysis by Region
  20.7.2. Global Clinical Scale Manufacturing Market for Dendritic Cell Therapies, 2022-2035
    20.7.2.1. Clinical Scale Manufacturing Market for Dendritic Cell and Tumor Cell Therapies, 2022-2035: Analysis by Source of Cells
    20.7.2.2. Clinical Scale Manufacturing Market for Dendritic Cell and Tumor Cell Therapies, 2022-2035: Analysis by Region
  20.7.3. Global Clinical Scale Manufacturing Market for NK Cell Therapies, 2022-2035
    20.7.3.1. Clinical Scale Manufacturing Market for NK Cell Therapies, 2022-2035: Analysis by Source of Cells
    20.7.3.2. Clinical Scale Manufacturing Market for NK Cell Therapies, 2022-2035: Analysis by Region
  20.7.4. Global Clinical Scale Manufacturing Market for Stem Cell Therapies, 2022-2035
    20.7.4.1. Clinical Scale Manufacturing Market for Stem Cell Therapies, 2022-2035: Analysis by Source of Cells
    20.7.4.2. Clinical Scale Manufacturing Market for Stem Cell Therapies, 2022-2035: Analysis by Region

21. KEY INSIGHTS

21.1. Chapter Overview
21.2. Cell Therapy Manufacturing: Grid Analysis
21.3. Cell Therapy Manufacturing: Logo Landscape
  21.3.1. Immune Cell Therapy Manufacturing: Logo Landscape
  21.3.2. Stem Cell Therapy Manufacturing: Logo Landscape
21.4. Cell Therapy Manufacturing: World Map Representation based on Location of Manufacturing Facilities
  21.4.1. Industry Players
  21.4.2. Non-Industry Players

22. SWOT ANALYSIS

22.1. Chapter Overview
22.2. Strengths
22.3. Weaknesses
22.4. Opportunities
22.5. Threats
22.6. Comparison of SWOT Factors

23. CONCLUDING REMARKS

23.1. Chapter Overview

24. SURVEY ANALYSIS

24.1. Chapter Overview
24.2. Analysis by Designation of Respondents
24.3. Analysis by Type of Cell Therapy
24.4. Analysis by Scale of Operation
24.5. Analysis by Source of Cells
24.6. Analysis by Type of Cell Culture System Used
24.7. Analysis by Availability of Fill / Finish Services

25. INTERVIEW TRANSCRIPTS

25.1. Chapter Overview
25.2. RoslinCT
  25.2.1. Company Overview
  25.2.2. Interview Transcript: Peter Coleman, Chief Executive Officer
25.3. Discovery Life Sciences
  25.3.1. Company Overview
  25.3.2. Interview Transcript: Dominic Clarke, Chief Technical Officer, Cell and Gene Therapy
25.4. Glycostem Therapeutics
  25.4.1. Company Overview
  25.4.2. Interview Transcript: Troels Jordansen, Chief Executive Officer
25.5. Bio Elpida
  25.5.1. Company Overview
  25.5.2. Interview Transcript: Gilles Devillers, President
25.6. Gracell Biotechnologies
  25.6.1. Company Overview
  25.6.2. Interview Transcript: Wei (William) Cao, Chief Executive Officer
25.7. Kadimastem
  25.7.1. Company Overview
  25.7.2. Interview Transcript: Arik Hasson, Executive VP Research and Development
25.8. RoslinCT
  25.8.1. Company Overview
  25.8.2. Interview Transcript: Fiona Bellot, Ex-Business Development Manager
25.9. University of Minnesota
  25.9.1. Company Overview
  25.9.2. Interview Transcript: David Mckenna, Professor and American Red Cross Chair in Transfusion Medicine
25.10. Lion TCR
  25.10.1. Company Overview
  25.10.2. Interview Transcript: Victor Lietao Li, Ex- Co-Founder and Chief Executive Officer
25.11. Center for Commercialization of Cancer Immunotherapy / C3i
  25.11.1. Company Overview
  25.11.2. Interview Transcript: Arnaud Deladeriere, Ex-Manager, Business Development & Operations-cGMP Manufacturing Unit
25.12. Waisman Biomanufacturing
  25.12.1. Company Overview
  25.12.2. Interview Transcript: Brian Dattilo, Manager of Business Development
25.13. Yposkesi
  25.13.1. Company Overview
  25.13.2. Interview Transcript: Mathilde Girard, Ex-Department Leader, Cell Therapy Innovation and Development
25.14. Cell Therapies
  25.14.1. Company Overview
  25.14.2. Interview Transcript: Tim Oldham, Ex-Chief Executive Officer
25.15. CiMaas
  25.15.1. Company Overview
  25.15.2. Interview Transcript: Gerard MJ Bos, Chief Executive Officer

26. APPENDIX 1: TABULATED DATA27. APPENDIX

27: LIST OF COMPANIES AND ORGANIZATIONS

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