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IndustryARC
Global 3D Printing in Healthcare Market (2014-2020)
Role and Opportunities: By Technology (LBM, EBM, Stereolithography and others); By Material (Metal, Cells and others); By Application (Implants, Tissue Engineering and others) & By Geography
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TABLE OF CONTENTS
1. Global 3D Printing in Healthcare Market Overview 2. Executive Summary 3. Global 3D Printing in Healthcare Market Landscape 3.1. Market share Analysis 3.2. Comparative Analysis 3.2.1.
Product Benchmarking
3.2.2.
End-User Profiling
3.2.3.
Patent Analysis
3.2.4.
Top 5 Financial Analysis
4. Global 3D Printing in Healthcare - Market Forces 4.1. Market Drivers 4.2. Market Constraints 4.3. Market Challenges 4.4. Attractiveness of the Industry 4.4.1.
Power of Suppliers
4.4.2.
Power of Customers
4.4.3.
Threat of New entrants
4.4.4.
Threat of Substitution
4.4.5.
Degree of Competition
5. Global 3D Printing in Healthcare Market – Strategic Analysis 5.1. Value Chain Analysis 5.2. Pricing Analysis 5.3. Opportunity Analysis
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5.4. Product Life Cycle Analysis 5.5. Suppliers & Distributors 6. Global 3D Printing in Healthcare Market – By Technology 6.1. Introduction 6.2. Laser Beam Melting 6.3. Electron Beam Melting 6.4. Stereolithography 6.5. Others 7. Global 3D Printing in Healthcare Market – By Material 7.1. Introduction 7.2. Cells 7.3. Plastics/Polymers 7.4. Metals 7.5. Others 8. Global 3D Printing in Healthcare Market – By Application 8.1. Introduction 8.2. Implants and Prosthetics 8.3. Surgical Guides 8.4. Hearing Aids 8.5. Tissue Engineering 8.6. Others 9. Global 3D Printing in Healthcare Market – By Geography 9.1. Introduction 9.2. Americas
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9.2.1.
U.S.
9.2.2.
Canada
9.2.3.
Brazil
9.2.4.
Others
9.3. Europe 9.3.1.
U.K.
9.3.2.
Germany
9.3.3.
France
9.3.4.
Italy
9.3.5.
Spain
9.3.6.
Others
9.4. APAC 9.4.1.
China
9.4.2.
Japan
9.4.3.
India
9.4.4.
Australia
9.4.5.
Others
9.5. RoW 10. Market Entropy 10.1.
New Product Launches
10.2.
M&As, Collaborations, Partnerships & JVs
11. Investment Opportunities 12. Company Profiles 12.1.
3D Biotek LLC.
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12.2.
3D Systems, Inc.
12.3.
3T RPD Ltd.
12.4.
Alphaform AG
12.5.
Arcam AB
12.6.
Beltone Hearing
12.7.
Bespoke Innovations
12.8.
EnvisionTEC GmbH
12.9.
EOS GmbH Electro Optical Systems
12.10. Gyrobot Limited 12.11. Javelin Technologies Inc. 12.12. Materialise NV 12.13. Medical Modeling Inc. 12.14. Nano3D Biosciences, Inc. 12.15. Organovo Holdings Inc. 12.16. Oxford Performance Materials, Inc. 12.17. Stratasys Ltd. 12.18. Stryker Corporation 12.19. Tissue Regeneration Systems Inc. 12.20. Xilloc Medical B.V. 13. Appendix 13.1.
Abbreviations
13.2.
Sources
13.3.
Research Methodology
13.4.
Bibliography
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13.5.
Compilation of Expert Insights
13.6.
Disclaimer
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LIST OF TABLES Table 1 Product Benchmarking for Global 3D Printing in Healthcare Market – By Application ($) Table 2 Global 3D Printing in Healthcare Market – Pricing Analysis ($) Table 3 Global 3D Printing in Healthcare Market Revenue, By Technology, 2014-2020 ($M) Table 4 Global 3D Printing in Healthcare Market Revenue, By Laser Beam Melting, By Application, 2014-2020 ($M) Table 5 Global 3D Printing in Healthcare Market Revenue, By Laser Beam Melting, By Material, 2014-2020 ($M) Table 6 Global 3D Printing in Healthcare Market Revenue, By Laser Beam Melting, By Geography, 2014-2020 ($M) Table 7 Global 3D Printing in Healthcare Market Revenue, By Electron Beam Melting, By Application, 2014-2020 ($M) Table 8 Global 3D Printing in Healthcare Market Revenue, By Electron Beam Melting, By Material, 2014-2020 ($M) Table 9 Global 3D Printing in Healthcare Market Revenue, By Electron Beam Melting, By Geography, 2014-2020 ($M) Table 10 Global 3D Printing in Healthcare Market Revenue, By Stereolithography, By Application, 2014-2020 ($M) Table 11 Global 3D Printing in Healthcare Market Revenue, By Stereolithography, By Material, 2014-2020 ($M) Table 12 Global 3D Printing in Healthcare Market Revenue, By Stereolithography, By Geography, 2014-2020 ($M) Table 13 Global 3D Printing in Healthcare Market Revenue, By Other Technologies, By Application, 2014-2020 ($M) Table 14 Global 3D Printing in Healthcare Market Revenue, By Other Technologies, By Material, 2014-2020 ($M) Table 15 Global 3D Printing in Healthcare Market Revenue, By Other Technologies, By Geography, 2014-2020 ($M) Table 16 Global 3D Printing in Healthcare Market Revenue, By Material, 2014-2020 ($M) Table 17 Global 3D Printing in Healthcare Market Revenue, By Cells, By Technology, 2014-2020 ($M)
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Table 18 Global 3D Printing in Healthcare Market Revenue, By Cells, By Application, 2014-2020 ($M) Table 19 Global 3D Printing in Healthcare Market Revenue, By Cells, By Geography, 2014-2020 ($M) Table 20 Global 3D Printing in Healthcare Market Revenue, By Plastics/Polymers, By Technology, 2014-2020 ($M) Table 21 Global 3D Printing in Healthcare Market Revenue, By Plastics/Polymers, By Application, 2014-2020 ($M) Table 22 Global 3D Printing in Healthcare Market Revenue, By Plastics/Polymers, By Geography, 2014-2020 ($M) Table 23 Global 3D Printing in Healthcare Market Revenue, By Metals, By Technology, 2014-2020 ($M) Table 24 Global 3D Printing in Healthcare Market Revenue, By Metals, By Application, 2014-2020 ($M) Table 25 Global 3D Printing in Healthcare Market Revenue, By Metals, By Geography, 2014-2020 ($M) Table 26 Global 3D Printing in Healthcare Market Revenue, By Other Materials, By Technology, 2014-2020 ($M) Table 27 Global 3D Printing in Healthcare Market Revenue, By Other Materials, By Application, 2014-2020 ($M) Table 28 Global 3D Printing in Healthcare Market Revenue, By Other Materials, By Geography, 2014-2020 ($M) Table 29 Global 3D Printing in Healthcare Market Revenue, By Application, 2014-2020 ($M) Table 30 Global 3D Printing in Healthcare Market Revenue in Implants and Prosthetics, By Technology, 2014-2020 ($M) Table 31 Global 3D Printing in Healthcare Market Revenue in Implants and Prosthetics, By Material, 2014-2020 ($M) Table 32 Global 3D Printing in Healthcare Market Revenue in Implants and Prosthetics, By Geography, 2014-2020 ($M) Table 33 Global 3D Printing in Healthcare Market Revenue in Surgical Guides, By Technology, 2014-2020 ($M)
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Table 34 Global 3D Printing in Healthcare Market Revenue in Surgical Guides, By Material, 20142020 ($M) Table 35 Global 3D Printing in Healthcare Market Revenue in Surgical Guides, By Geography, 2014-2020 ($M) Table 36 Global 3D Printing in Healthcare Market Revenue in Hearing Aids, By Technology, 2014-2020 ($M) Table 37 Global 3D Printing in Healthcare Market Revenue in Hearing Aids, By Material, 20142020 ($M) Table 38 Global 3D Printing in Healthcare Market Revenue in Hearing Aids, By Geography, 20142020 ($M) Table 39 Global 3D Printing in Healthcare Market Revenue in Tissue Engineering, By Technology, 2014-2020 ($M) Table 40 Global 3D Printing in Healthcare Market Revenue in Tissue Engineering, By Material, 2014-2020 ($M) Table 41 Global 3D Printing in Healthcare Market Revenue in Tissue Engineering, By Geography, 2014-2020 ($M) Table 42 Global 3D Printing in Healthcare Market Revenue, By Geography, 2014-2020 ($M) Table 43 Americas: 3D Printing in Healthcare Market Revenue, By Country, 2014-2020 ($M) Table 44 Americas: 3D Printing in Healthcare Market Revenue, By Technology, 2014-2020 ($M) Table 45 Americas: 3D Printing in Healthcare Market Revenue, By Material, 2014-2020 ($M) Table 46 Americas: 3D Printing in Healthcare Market Revenue, By Application, 2014-2020 ($M) Table 47 Europe: 3D Printing in Healthcare Market Revenue, By Country, 2014-2020 ($M) Table 48 Europe: 3D Printing in Healthcare Market Revenue, By Technology, 2014-2020 ($M) Table 49 Europe: 3D Printing in Healthcare Market Revenue, By Material, 2014-2020 ($M) Table 50 Europe: 3D Printing in Healthcare Market Revenue, By Application, 2014-2020 ($M) Table 51 APAC: 3D Printing in Healthcare Market Revenue, By Country, 2014-2020 ($M) Table 52 APAC: 3D Printing in Healthcare Market Revenue, By Technology, 2014-2020 ($M) Table 53 APAC: 3D Printing in Healthcare Market Revenue, By Material, 2014-2020 ($M) Table 54 APAC: 3D Printing in Healthcare Market Revenue, By Application, 2014-2020 ($M) Table 55 RoW: 3D Printing in Healthcare Market Revenue, By Country, 2014-2020 ($M) Table 56 RoW: 3D Printing in Healthcare Market Revenue, By Technology, 2014-2020 ($M) Table 57 RoW: 3D Printing in Healthcare Market Revenue, By Material, 2014-2020 ($M)
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LIST OF FIGURES Figure1 Global 3D Printing in Healthcare Market, By Geography, 2014 - 2020 ($M) Figure2 Segmentation of Global 3D Printing in Healthcare Market Figure3 Global 3D Printing in Healthcare Market Competitive Share Analysis, 2014(%) Figure4 Global 3D Printing in Healthcare Market Share, By Technology, 2014 (%) Figure5 Global 3D Printing in Healthcare Market Share, By Material, 2014 (%) Figure6 Global 3D Printing in Healthcare Market Share, By Application, 2014 (%) Figure7 Global 3D Printing in Healthcare Market Share, By Geography, 2014 (%) Figure8 Americas 3D Printing in Healthcare Market Share, By Country, 2014 (%) Figure9 Europe 3D Printing in Healthcare Market Share, By Country, 2014 (%) Figure10 APAC 3D Printing in Healthcare Market Share, By Country, 2014 (%) Figure11 RoW 3D Printing in Healthcare Market Share, By Country, 2014 (%) Figure12 Global 3D Printing in Healthcare Market Recent Developments, By Year, 2012-2015
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1. GLOBAL 3D PRINTING IN HEALTHCARE MARKET OVERVIEW 1.1. REPORT SCOPE The global market for 3D printing in healthcare has been segmented by the technologies employed for 3D printing, the raw materials used and by various applications of 3D printing in healthcare sector. The major healthcare applications in 3D Printing market include making of surgical implants, prosthetics, tissues, surgical guides, hearing guides and so on from raw materials such as cells, plastics or polymers and metals. Each of these segmentations has been studied to give a comprehensive analysis of the global 3D printing in healthcare market. The overall market has also been presented from the perspective of different geographic locations into standard geographic regions and key economies for this market. Competitive landscape for each of the capture technologies and storage methods is highlighted and the market players are profiled with attributes of company overview, financial overview, business strategies, product portfolio and recent developments. Market shares of the key players for 2014 are provided. The prominent players profiled in this report are Organovo Holdings Inc., 3D Systems, Inc., Stratasys Ltd., EnvisionTEC GmbH, EOS GmbH Electro Optical Systems and others. The report contains the most detailed and in-depth segmentation and analysis of the Global 3D printing in Healthcare market during the period 2014 - 2020.
1.2.
STAKEHOLDERS
The following are the prominent stakeholders in the global market for 3D printing in Healthcare. •
OEMs
•
Raw material suppliers
•
Healthcare professionals
•
Health insurance players
•
Hospitals and Clinics
•
Distributors
•
Universities and R&D centres
•
Regulatory authorities
•
Patients
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2. EXECUTIVE SUMMARY The history of 3D printing or additive manufacturing in a broader sense dates back to 1980s but the technology’s onset in healthcare was not until recently. 3D printing in healthcare market has gained much prominence in the recent years due to the increasing number of applications in the medical and dental surgeries along with the developments in tissue engineering. The global market for 3D printing in healthcare is rapidly growing with an explosive CAGR exceeding 15% over the forecast period 2015-2020 to reach $XX billion by 2020. The market is set to be driven by the increasing demand for patient-specific tailored products in orthopedics and maxillofacial surgery. Advances in tissue engineering for 3D bio-printing is gaining importance and the tissues generated by bio-printing will be available for transplant in the near future. However, high costs and regulatory barriers are likely to hinder the market growth.
SAMPLE TABLE: GLOBAL 3D PRINTING IN HEALTHCARE MARKET, BY REGION, 2014-2020 ($M) Region
2014
2015
2016
Americas xx xx xx Europe xx xx xx APAC xx xx xx RoW xx xx xx Total xx xx xx Source: IndustryARC Analysis, Expert Insights
2017
2018
2019
2020
CAGR% (20152020)
xx xx xx xx xx
xx xx xx xx xx
xx xx xx xx xx
xx xx xx xx xx
xx% xx% xx% xx% 15.5%
Americas exhibited the highest market share exceeding 37% of the global 3D printing in healthcare market in 2014 due to the high funding for research activities in this area, enhanced health consciousness among patients and increased spending on healthcare. On the other hand, Europe is poised to grow with the highest annual growth rate during the period under study. The high growth can be attributed to the rising demand for customized or personalized implants or prosthetic devices and medicines suited for an individual’s needs. Huge number of research programs and increasing funds for the same are expected to drive the market in this region.
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SAMPLE FIGURE: GLOBAL 3D PRINTING MARKET, BY APPLICATION, 2014(%)
Automobile and Aerospace Consumer goods Industrial Healthcare Others
Source: IndustryARC Analysis
The global market for 3D printing was dominated by aerospace and automobile industry. However, the medical and healthcare industry is projected to exhibit the highest growth rate due to the high amounts of government funding being allocated for these technologies. The increasing demand for custom-made medical products such as tissues, orthopedic and dental implants, prosthetic devices, medicines and so on is expected to drive the demand for 3D printing technology in healthcare and medicine.
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KEY MARKET INSIGHTS A research team from Japan have advanced in the direction of using a 3D printer to construct custom-made skin and bones in January, 2015. The work combines proteins, stem cells and a synthetic material comparable to collagen in order to elicit growth of the tissue. Gyrobot Limited of U.K. in January, 2015 has created an economically viable flexible “Flexy hand” 3D-printed prosthetic hand, which features Skin I Filaflex elastic filament supplied by Recreus. Organovo Holdings, Inc. has partnered with Johnson & Johnson in July, 2014 in order to evaluate the safety and effectiveness of 3D-printed living tissue used for drug discovery. A couple of cancer patients from South Africa were provided with 3D printed titanium jaw implants that feature fusion of titanium powder and laser beams. The procedure is the first of its kind in South Africa and third in the world. A team of medical researchers from the Feinstein Institute for Medical Research in February, 2015 have utilised a 3D printer to make tracheal cartilage made up of collagen and chondrocytes to create prototypes and improve the bio-prosthesis. Plastics or polymers occupy the dominant type of materials used in 3D printing for medical applications, occupying over 35% market share. Laser beam melting or laser sintering is the rapidly growing technology to be used in 3D printing in healthcare, owing to the increasing usage in making orthopaedic implants and prosthesis.
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13.3 RESEARCH METHODOLOGY The quantitative and qualitative data collected for the global 3D printing in healthcare market report is from a combination of secondary and primary sources. Research interviews were conducted with executives and/or mangers in the key device manufacturers and related organizations. These Key Opinion Leaders (KOLs) were then provided a questionnaire to gather quantitative and qualitative inputs on their operations, performance, strategies and views on the overall market, including key developments and trends. Data from interviews is consolidated, checked for consistency and accuracy, and the final market numbers are again validated by experts. The global 3D printing in Healthcare market was split by technology, material, application and geography based on different factors like primary and secondary sources, understanding of the number of companies operating in each segment and also KOL insights. We have used various secondary sources such as directories, articles, white papers, newsletters, annual reports and paid databases such as OneSource, Hoovers and Factiva to identify and collect information for extensive commercial study of the global 3D printing in healthcare market. The approach towards finding information regarding the market and forecasting has been quite extensive. The key players in the market and its value chain were identified through secondary research and their market opinions were also gathered in a similar way through telephonic interviews and questionnaires. Interviews with key opinion leaders such as managers and marketing personnel were used extensively in understanding the need and emergence of 3D printing in healthcare market. We also have extensive database of contacts which were used to conduct primary interviews and also to get their inputs using questionnaires.
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THE ARC ADVANTAGE An analytical model lies at the core of our process, ensuring logical consistency throughout our research. We complement the model with secondary data and interviews with industry experts to reflect the latest trends. With our final expert validation, we provide you with only the most accurate and actionable intelligence.
THE ARC PROCESS Analytical Method 1. Granular breakdown of drivers into factors 2. Validate all factors in terms of their present impact on the market 3. Assign weights to these factors in terms of their relevance and impact on the market 4. Build the Analytical Model ANALYTICAL MODEL
Base Method
1. Get a topdown estimate of the market 2. Follow it up with a bottom-up estimate of the market 3. Check forconsistency and new growth factors that are relevant over the next 10 Years
4. Build the Base model BASE MODEL
Consolidation Method 1. Granular breakdown of drivers into factors 2. Validate all factors in terms of their present impact on the market. 3. Assign weights to these factors in terms of their relevance and impact on the market. 4. Build the Consolidated Model
Delphi Verification 1. Verify the findings of the model with experts from across the value chain 2. Verify the findings with players across small and large enterprises 3. Tweak the model and add new factors 4. Finalize the ARC Model
CONSOLIDATED MODEL
ARC MODEL
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