Global Healthcare 3D Printing Market by Raw Material (Biological Cells, Metals, Ceramics, Polymers), by Application (Surgical Guides, Surgical Instruments, Implants, Bioengineering), by Technology (Electron Beam Melting, Stereolithography, Droplet Deposition Manufacturing) and Region (North America, Latin America, Europe, Asia Pacific and Middle East & Africa), Forecast To 2028
Industry Insights
3D printing allows the creation of three-dimensional physical objects from digital files. This is possible by using additive processes. The 3D printing process evolved from prototyping for various purposes to create useful parts and products. Healthcare 3D printing offers significant opportunities for hearing aids and prostheses. Contact lenses can also be customized to fit each individual's needs. The future blueprint for healthcare 3D printing market solutions is personalized digital data. This includes hearing aids, prosthetic limbs, and orthotic footwear, as well as hip and knee implants and dental crowns. The healthcare 3D printing market is driven by the growing geriatric population, which is considered to be the most risk factor for various diseases such as cardiovascular and orthopedic. There are also rising healthcare needs in developing countries. Due to government intervention in improving healthcare infrastructure and investing more in R&D, the Healthcare 3D printing market will experience significant growth. 3D printing is also being explored by healthcare professionals as it lowers risks of long-term anesthesia and improves healthcare.
Application Insights
Healthcare 3D printing includes applications such surgical guides, implants and surgical instruments. There are three types of surgical guides: craniomaxillofacial and orthopedic. Implants can be classified as craniomaxillofacial or orthopedic. The market for medical implants healthcare 3D printing is expected to grow at the fastest rate over the forecast period. Most doctors in the U.S. use medical implants to replace the majority of the skull.
Healthcare 3D printing market, by technology, 2012 - 2020 (USD million)
According to the Oxford Performance Materials report 75% of American patients had their skulls replaced by an Oxford Performance Materials 3D-printed implant. Arcam is a leader in medical implant manufacturing. Customized orthopedic implants are more effective and reduce surgery times. 3D printing parts is also much faster and easier than other methods. The market for direct dental implants will grow in the future, while the market for bespoke surgical implants is expected to shrink. Dental 3D printers are helping to expand digital dentistry. They can produce dental prosthetics made in metal along with exceptional wax-ups that can either be cast or pressed. This makes it less complicated, more precise, and also cheaper.
Technology Insights
Major healthcare 3D printing market technologies include electron beam melting, laser beam melting, photo-polymerization, and droplet manufacturing. Inkjet printing, multiphase Jet solidification and fused Deposition modeling are all examples of droplet deposition manufacturing. Bioprinting is the printing of living tissue using inkjet. The printer uses bio-ink, which is a mixture of living cells. The printer creates a structure using biological cells to make human tissue. This technology is being tested by researchers for skin grafting and small heart valves.
Raw Material Insights
Metals, ceramics and polymers are the main raw materials in the healthcare 3D printing market. This market was led by polymers in terms of share in 2013, mainly due to their high usage rates. This market will continue to grow due to technological advances in the future.
Regional Insights
The market for healthcare 3D printing is divided into North America and Europe, Asia-Pacific, RoW, and Asia-Pacific. North America is the dominant market for healthcare 3D printing. This is due to its high healthcare spending, advanced healthcare infrastructure, and increased investment in R&D facilities to develop 3D technologies. The Asia Pacific market is forecast to grow rapidly due to rising adoption rates of 3D- and 4D technologies such as a bionic hand from Youbionic. This adds value to the overall experience and continuously improving healthcare infrastructure.
Competitive Insights
Envision TEC, Stratasys Inc. and Materialise NV are key players in the healthcare 3D printing industry.
Up Market Research published a new report titled “Healthcare 3D Printing Market research report which is segmented by Raw Material (Biological Cells, Metals, Ceramics, Polymers), by Application (Surgical Guides, Surgical Instruments, Implants, Bioengineering), by Technology (Electron Beam Melting, Stereolithography, Droplet Deposition Manufacturing), By Players/Companies polymers, ceramics, metals, the introduction of technological advancements in this frontier is expected to help this segment grow at a lucrative CAGR during the forecast period, biological cells Polymers led this market in terms of share in 2013 majorly owing to high usage rates Moreover”. As per the study the market is expected to grow at a CAGR of XX% in the forecast period.
Report Scope
| Report Attributes | Report Details |
| Report Title | Healthcare 3D Printing Market Research Report |
| By Raw Material | Biological Cells, Metals, Ceramics, Polymers |
| By Application | Surgical Guides, Surgical Instruments, Implants, Bioengineering |
| By Technology | Electron Beam Melting, Stereolithography, Droplet Deposition Manufacturing |
| By Companies | polymers, ceramics, metals, the introduction of technological advancements in this frontier is expected to help this segment grow at a lucrative CAGR during the forecast period, biological cells Polymers led this market in terms of share in 2013 majorly owing to high usage rates Moreover |
| Regions Covered | North America, Europe, APAC, Latin America, MEA |
| Base Year | 2020 |
| Historical Year | 2018 to 2019 (Data from 2010 can be provided as per availability) |
| Forecast Year | 2028 |
| Number of Pages | 221 |
| Number of Tables & Figures | 155 |
| Customization Available | Yes, the report can be customized as per your need. |
The report covers comprehensive data on emerging trends, market drivers, growth opportunities, and restraints that can change the market dynamics of the industry. It provides an in-depth analysis of the market segments which include products, applications, and competitor analysis.
Global Healthcare 3D Printing Market Report Segments:
The market is segmented by Raw Material (Biological Cells, Metals, Ceramics, Polymers), by Application (Surgical Guides, Surgical Instruments, Implants, Bioengineering), by Technology (Electron Beam Melting, Stereolithography, Droplet Deposition Manufacturing).
Healthcare 3D Printing Market research report delivers a close watch on leading competitors with strategic analysis, micro and macro market trend and scenarios, pricing analysis and a holistic overview of the market situations in the forecast period. It is a professional and a detailed report focusing on primary and secondary drivers, market share, leading segments and geographical analysis. Further, key players, major collaborations, merger & acquisitions along with trending innovation and business policies are reviewed in the report.
Key Benefits for Industry Participants & Stakeholders:
- Industry drivers, restraints, and opportunities covered in the study
- Neutral perspective on the market performance
- Recent industry trends and developments
- Competitive landscape & strategies of key players
- Potential & niche segments and regions exhibiting promising growth covered
- Historical, current, and projected market size, in terms of value
- In-depth analysis of the Healthcare 3D Printing Market
Overview of the regional outlook of the Healthcare 3D Printing Market:
Based on region, the market is segmented into North America, Europe, Asia Pacific, Latin America and Middle East & Africa (MEA). North America region is further bifurcated into countries such as U.S., and Canada. The Europe region is further categorized into U.K., France, Germany, Italy, Spain, Russia, and Rest of Europe. Asia Pacific is further segmented into China, Japan, South Korea, India, Australia, South East Asia, and Rest of Asia Pacific. Latin America region is further segmented into Brazil, Mexico, and Rest of Latin America, and the MEA region is further divided into GCC, Turkey, South Africa, and Rest of MEA.
Highlights of The Healthcare 3D Printing Market Report:
- The market structure and projections for the coming years.
- Drivers, restraints, opportunities, and current trends of Healthcare 3D Printing Market.
- Historical data and forecast.
- Estimations for the forecast period 2028.
- Developments and trends in the market.
1. Biological Cells
2. Metals
3. Ceramics
4. Polymers
7. By Application:1. Surgical Guides
2. Surgical Instruments
3. Implants
4. Bioengineering
8. By Technology:1. Electron Beam Melting
2. Stereolithography
3. Droplet Deposition Manufacturing
- Market scenario by region, sub-region, and country.
- Market share of the market players, company profiles, product specifications, SWOT analysis, and competitive landscape.
- Analysis regarding upstream raw materials, downstream demand, and current market dynamics.
- Government Policies, Macro & Micro economic factors are also included in the report.
We have studied the Healthcare 3D Printing Market in 360 degrees via. both primary & secondary research methodologies. This helped us in building an understanding of the current market dynamics, supply-demand gap, pricing trends, product preferences, consumer patterns & so on. The findings were further validated through primary research with industry experts & opinion leaders across countries. The data is further compiled & validated through various market estimation & data validation methodologies. Further, we also have our in-house data forecasting model to predict market growth up to 2028.
How you may use our products:
- Correctly Positioning New Products
- Market Entry Strategies
- Business Expansion Strategies
- Consumer Insights
- Understanding Competition Scenario
- Product & Brand Management
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- Identifying Appropriate Advertising Appeals
Reasons to Purchase the Healthcare 3D Printing Market Report:
- The report includes a plethora of information such as market dynamics scenario and opportunities during the forecast period
- Segments and sub-segments include quantitative, qualitative, value (USD Million,) and volume (Units Million) data.
- Regional, sub-regional, and country level data includes the demand and supply forces along with their influence on the market.
- The competitive landscape comprises share of key players, new developments, and strategies in the last three years.
- Comprehensive companies offering products, relevant financial information, recent developments, SWOT analysis, and strategies by these players.
Chapter 1 Executive Summary
Chapter 2 Assumptions and Acronyms Used
Chapter 3 Research Methodology
Chapter 4 Healthcare 3D Printing Market Overview
4.1 Introduction
4.1.1 Market Taxonomy
4.1.2 Market Definition
4.1.3 Macro-Economic Factors Impacting the Market Growth
4.2 Healthcare 3D Printing Market Dynamics
4.2.1 Market Drivers
4.2.2 Market Restraints
4.2.3 Market Opportunity
4.3 Healthcare 3D Printing Market - Supply Chain Analysis
4.3.1 List of Key Suppliers
4.3.2 List of Key Distributors
4.3.3 List of Key Consumers
4.4 Key Forces Shaping the Healthcare 3D Printing Market
4.4.1 Bargaining Power of Suppliers
4.4.2 Bargaining Power of Buyers
4.4.3 Threat of Substitution
4.4.4 Threat of New Entrants
4.4.5 Competitive Rivalry
4.5 Global Healthcare 3D Printing Market Size & Forecast, 2018-2028
4.5.1 Healthcare 3D Printing Market Size and Y-o-Y Growth
4.5.2 Healthcare 3D Printing Market Absolute $ Opportunity
Chapter 5 Global Healthcare 3D Printing Market Analysis and Forecast by Raw Material
5.1 Introduction
5.1.1 Key Market Trends & Growth Opportunities by Raw Material
5.1.2 Basis Point Share (BPS) Analysis by Raw Material
5.1.3 Absolute $ Opportunity Assessment by Raw Material
5.2 Healthcare 3D Printing Market Size Forecast by Raw Material
5.2.1 Biological Cells
5.2.2 Metals
5.2.3 Ceramics
5.2.4 Polymers
5.3 Market Attractiveness Analysis by Raw Material
Chapter 6 Global Healthcare 3D Printing Market Analysis and Forecast by Application
6.1 Introduction
6.1.1 Key Market Trends & Growth Opportunities by Application
6.1.2 Basis Point Share (BPS) Analysis by Application
6.1.3 Absolute $ Opportunity Assessment by Application
6.2 Healthcare 3D Printing Market Size Forecast by Application
6.2.1 Surgical Guides
6.2.2 Surgical Instruments
6.2.3 Implants
6.2.4 Bioengineering
6.3 Market Attractiveness Analysis by Application
Chapter 7 Global Healthcare 3D Printing Market Analysis and Forecast by Technology
7.1 Introduction
7.1.1 Key Market Trends & Growth Opportunities by Technology
7.1.2 Basis Point Share (BPS) Analysis by Technology
7.1.3 Absolute $ Opportunity Assessment by Technology
7.2 Healthcare 3D Printing Market Size Forecast by Technology
7.2.1 Electron Beam Melting
7.2.2 Stereolithography
7.2.3 Droplet Deposition Manufacturing
7.3 Market Attractiveness Analysis by Technology
Chapter 8 Global Healthcare 3D Printing Market Analysis and Forecast by Region
8.1 Introduction
8.1.1 Key Market Trends & Growth Opportunities by Region
8.1.2 Basis Point Share (BPS) Analysis by Region
8.1.3 Absolute $ Opportunity Assessment by Region
8.2 Healthcare 3D Printing Market Size Forecast by Region
8.2.1 North America
8.2.2 Europe
8.2.3 Asia Pacific
8.2.4 Latin America
8.2.5 Middle East & Africa (MEA)
8.3 Market Attractiveness Analysis by Region
Chapter 9 Coronavirus Disease (COVID-19) Impact
9.1 Introduction
9.2 Current & Future Impact Analysis
9.3 Economic Impact Analysis
9.4 Government Policies
9.5 Investment Scenario
Chapter 10 North America Healthcare 3D Printing Analysis and Forecast
10.1 Introduction
10.2 North America Healthcare 3D Printing Market Size Forecast by Country
10.2.1 U.S.
10.2.2 Canada
10.3 Basis Point Share (BPS) Analysis by Country
10.4 Absolute $ Opportunity Assessment by Country
10.5 Market Attractiveness Analysis by Country
10.6 North America Healthcare 3D Printing Market Size Forecast by Raw Material
10.6.1 Biological Cells
10.6.2 Metals
10.6.3 Ceramics
10.6.4 Polymers
10.7 Basis Point Share (BPS) Analysis by Raw Material
10.8 Absolute $ Opportunity Assessment by Raw Material
10.9 Market Attractiveness Analysis by Raw Material
10.10 North America Healthcare 3D Printing Market Size Forecast by Application
10.10.1 Surgical Guides
10.10.2 Surgical Instruments
10.10.3 Implants
10.10.4 Bioengineering
10.11 Basis Point Share (BPS) Analysis by Application
10.12 Absolute $ Opportunity Assessment by Application
10.13 Market Attractiveness Analysis by Application
10.14 North America Healthcare 3D Printing Market Size Forecast by Technology
10.14.1 Electron Beam Melting
10.14.2 Stereolithography
10.14.3 Droplet Deposition Manufacturing
10.15 Basis Point Share (BPS) Analysis by Technology
10.16 Absolute $ Opportunity Assessment by Technology
10.17 Market Attractiveness Analysis by Technology
Chapter 11 Europe Healthcare 3D Printing Analysis and Forecast
11.1 Introduction
11.2 Europe Healthcare 3D Printing Market Size Forecast by Country
11.2.1 Germany
11.2.2 France
11.2.3 Italy
11.2.4 U.K.
11.2.5 Spain
11.2.6 Russia
11.2.7 Rest of Europe
11.3 Basis Point Share (BPS) Analysis by Country
11.4 Absolute $ Opportunity Assessment by Country
11.5 Market Attractiveness Analysis by Country
11.6 Europe Healthcare 3D Printing Market Size Forecast by Raw Material
11.6.1 Biological Cells
11.6.2 Metals
11.6.3 Ceramics
11.6.4 Polymers
11.7 Basis Point Share (BPS) Analysis by Raw Material
11.8 Absolute $ Opportunity Assessment by Raw Material
11.9 Market Attractiveness Analysis by Raw Material
11.10 Europe Healthcare 3D Printing Market Size Forecast by Application
11.10.1 Surgical Guides
11.10.2 Surgical Instruments
11.10.3 Implants
11.10.4 Bioengineering
11.11 Basis Point Share (BPS) Analysis by Application
11.12 Absolute $ Opportunity Assessment by Application
11.13 Market Attractiveness Analysis by Application
11.14 Europe Healthcare 3D Printing Market Size Forecast by Technology
11.14.1 Electron Beam Melting
11.14.2 Stereolithography
11.14.3 Droplet Deposition Manufacturing
11.15 Basis Point Share (BPS) Analysis by Technology
11.16 Absolute $ Opportunity Assessment by Technology
11.17 Market Attractiveness Analysis by Technology
Chapter 12 Asia Pacific Healthcare 3D Printing Analysis and Forecast
12.1 Introduction
12.2 Asia Pacific Healthcare 3D Printing Market Size Forecast by Country
12.2.1 China
12.2.2 Japan
12.2.3 South Korea
12.2.4 India
12.2.5 Australia
12.2.6 South East Asia (SEA)
12.2.7 Rest of Asia Pacific (APAC)
12.3 Basis Point Share (BPS) Analysis by Country
12.4 Absolute $ Opportunity Assessment by Country
12.5 Market Attractiveness Analysis by Country
12.6 Asia Pacific Healthcare 3D Printing Market Size Forecast by Raw Material
12.6.1 Biological Cells
12.6.2 Metals
12.6.3 Ceramics
12.6.4 Polymers
12.7 Basis Point Share (BPS) Analysis by Raw Material
12.8 Absolute $ Opportunity Assessment by Raw Material
12.9 Market Attractiveness Analysis by Raw Material
12.10 Asia Pacific Healthcare 3D Printing Market Size Forecast by Application
12.10.1 Surgical Guides
12.10.2 Surgical Instruments
12.10.3 Implants
12.10.4 Bioengineering
12.11 Basis Point Share (BPS) Analysis by Application
12.12 Absolute $ Opportunity Assessment by Application
12.13 Market Attractiveness Analysis by Application
12.14 Asia Pacific Healthcare 3D Printing Market Size Forecast by Technology
12.14.1 Electron Beam Melting
12.14.2 Stereolithography
12.14.3 Droplet Deposition Manufacturing
12.15 Basis Point Share (BPS) Analysis by Technology
12.16 Absolute $ Opportunity Assessment by Technology
12.17 Market Attractiveness Analysis by Technology
Chapter 13 Latin America Healthcare 3D Printing Analysis and Forecast
13.1 Introduction
13.2 Latin America Healthcare 3D Printing Market Size Forecast by Country
13.2.1 Brazil
13.2.2 Mexico
13.2.3 Rest of Latin America (LATAM)
13.3 Basis Point Share (BPS) Analysis by Country
13.4 Absolute $ Opportunity Assessment by Country
13.5 Market Attractiveness Analysis by Country
13.6 Latin America Healthcare 3D Printing Market Size Forecast by Raw Material
13.6.1 Biological Cells
13.6.2 Metals
13.6.3 Ceramics
13.6.4 Polymers
13.7 Basis Point Share (BPS) Analysis by Raw Material
13.8 Absolute $ Opportunity Assessment by Raw Material
13.9 Market Attractiveness Analysis by Raw Material
13.10 Latin America Healthcare 3D Printing Market Size Forecast by Application
13.10.1 Surgical Guides
13.10.2 Surgical Instruments
13.10.3 Implants
13.10.4 Bioengineering
13.11 Basis Point Share (BPS) Analysis by Application
13.12 Absolute $ Opportunity Assessment by Application
13.13 Market Attractiveness Analysis by Application
13.14 Latin America Healthcare 3D Printing Market Size Forecast by Technology
13.14.1 Electron Beam Melting
13.14.2 Stereolithography
13.14.3 Droplet Deposition Manufacturing
13.15 Basis Point Share (BPS) Analysis by Technology
13.16 Absolute $ Opportunity Assessment by Technology
13.17 Market Attractiveness Analysis by Technology
Chapter 14 Middle East & Africa (MEA) Healthcare 3D Printing Analysis and Forecast
14.1 Introduction
14.2 Middle East & Africa (MEA) Healthcare 3D Printing Market Size Forecast by Country
14.2.1 Saudi Arabia
14.2.2 South Africa
14.2.3 UAE
14.2.4 Rest of Middle East & Africa (MEA)
14.3 Basis Point Share (BPS) Analysis by Country
14.4 Absolute $ Opportunity Assessment by Country
14.5 Market Attractiveness Analysis by Country
14.6 Middle East & Africa (MEA) Healthcare 3D Printing Market Size Forecast by Raw Material
14.6.1 Biological Cells
14.6.2 Metals
14.6.3 Ceramics
14.6.4 Polymers
14.7 Basis Point Share (BPS) Analysis by Raw Material
14.8 Absolute $ Opportunity Assessment by Raw Material
14.9 Market Attractiveness Analysis by Raw Material
14.10 Middle East & Africa (MEA) Healthcare 3D Printing Market Size Forecast by Application
14.10.1 Surgical Guides
14.10.2 Surgical Instruments
14.10.3 Implants
14.10.4 Bioengineering
14.11 Basis Point Share (BPS) Analysis by Application
14.12 Absolute $ Opportunity Assessment by Application
14.13 Market Attractiveness Analysis by Application
14.14 Middle East & Africa (MEA) Healthcare 3D Printing Market Size Forecast by Technology
14.14.1 Electron Beam Melting
14.14.2 Stereolithography
14.14.3 Droplet Deposition Manufacturing
14.15 Basis Point Share (BPS) Analysis by Technology
14.16 Absolute $ Opportunity Assessment by Technology
14.17 Market Attractiveness Analysis by Technology
Chapter 15 Competition Landscape
15.1 Healthcare 3D Printing Market: Competitive Dashboard
15.2 Global Healthcare 3D Printing Market: Market Share Analysis, 2019
15.3 Company Profiles (Details – Overview, Financials, Developments, Strategy)
15.3.1 polymers
15.3.2 ceramics
15.3.3 metals
15.3.4 the introduction of technological advancements in this frontier is expected to help this segment grow at a lucrative CAGR during the forecast period
15.3.5 biological cells Polymers led this market in terms of share in 2013 majorly owing to high usage rates Moreover
Chapter 2 Assumptions and Acronyms Used
Chapter 3 Research Methodology
Chapter 4 Healthcare 3D Printing Market Overview
4.1 Introduction
4.1.1 Market Taxonomy
4.1.2 Market Definition
4.1.3 Macro-Economic Factors Impacting the Market Growth
4.2 Healthcare 3D Printing Market Dynamics
4.2.1 Market Drivers
4.2.2 Market Restraints
4.2.3 Market Opportunity
4.3 Healthcare 3D Printing Market - Supply Chain Analysis
4.3.1 List of Key Suppliers
4.3.2 List of Key Distributors
4.3.3 List of Key Consumers
4.4 Key Forces Shaping the Healthcare 3D Printing Market
4.4.1 Bargaining Power of Suppliers
4.4.2 Bargaining Power of Buyers
4.4.3 Threat of Substitution
4.4.4 Threat of New Entrants
4.4.5 Competitive Rivalry
4.5 Global Healthcare 3D Printing Market Size & Forecast, 2018-2028
4.5.1 Healthcare 3D Printing Market Size and Y-o-Y Growth
4.5.2 Healthcare 3D Printing Market Absolute $ Opportunity
Chapter 5 Global Healthcare 3D Printing Market Analysis and Forecast by Raw Material
5.1 Introduction
5.1.1 Key Market Trends & Growth Opportunities by Raw Material
5.1.2 Basis Point Share (BPS) Analysis by Raw Material
5.1.3 Absolute $ Opportunity Assessment by Raw Material
5.2 Healthcare 3D Printing Market Size Forecast by Raw Material
5.2.1 Biological Cells
5.2.2 Metals
5.2.3 Ceramics
5.2.4 Polymers
5.3 Market Attractiveness Analysis by Raw Material
Chapter 6 Global Healthcare 3D Printing Market Analysis and Forecast by Application
6.1 Introduction
6.1.1 Key Market Trends & Growth Opportunities by Application
6.1.2 Basis Point Share (BPS) Analysis by Application
6.1.3 Absolute $ Opportunity Assessment by Application
6.2 Healthcare 3D Printing Market Size Forecast by Application
6.2.1 Surgical Guides
6.2.2 Surgical Instruments
6.2.3 Implants
6.2.4 Bioengineering
6.3 Market Attractiveness Analysis by Application
Chapter 7 Global Healthcare 3D Printing Market Analysis and Forecast by Technology
7.1 Introduction
7.1.1 Key Market Trends & Growth Opportunities by Technology
7.1.2 Basis Point Share (BPS) Analysis by Technology
7.1.3 Absolute $ Opportunity Assessment by Technology
7.2 Healthcare 3D Printing Market Size Forecast by Technology
7.2.1 Electron Beam Melting
7.2.2 Stereolithography
7.2.3 Droplet Deposition Manufacturing
7.3 Market Attractiveness Analysis by Technology
Chapter 8 Global Healthcare 3D Printing Market Analysis and Forecast by Region
8.1 Introduction
8.1.1 Key Market Trends & Growth Opportunities by Region
8.1.2 Basis Point Share (BPS) Analysis by Region
8.1.3 Absolute $ Opportunity Assessment by Region
8.2 Healthcare 3D Printing Market Size Forecast by Region
8.2.1 North America
8.2.2 Europe
8.2.3 Asia Pacific
8.2.4 Latin America
8.2.5 Middle East & Africa (MEA)
8.3 Market Attractiveness Analysis by Region
Chapter 9 Coronavirus Disease (COVID-19) Impact
9.1 Introduction
9.2 Current & Future Impact Analysis
9.3 Economic Impact Analysis
9.4 Government Policies
9.5 Investment Scenario
Chapter 10 North America Healthcare 3D Printing Analysis and Forecast
10.1 Introduction
10.2 North America Healthcare 3D Printing Market Size Forecast by Country
10.2.1 U.S.
10.2.2 Canada
10.3 Basis Point Share (BPS) Analysis by Country
10.4 Absolute $ Opportunity Assessment by Country
10.5 Market Attractiveness Analysis by Country
10.6 North America Healthcare 3D Printing Market Size Forecast by Raw Material
10.6.1 Biological Cells
10.6.2 Metals
10.6.3 Ceramics
10.6.4 Polymers
10.7 Basis Point Share (BPS) Analysis by Raw Material
10.8 Absolute $ Opportunity Assessment by Raw Material
10.9 Market Attractiveness Analysis by Raw Material
10.10 North America Healthcare 3D Printing Market Size Forecast by Application
10.10.1 Surgical Guides
10.10.2 Surgical Instruments
10.10.3 Implants
10.10.4 Bioengineering
10.11 Basis Point Share (BPS) Analysis by Application
10.12 Absolute $ Opportunity Assessment by Application
10.13 Market Attractiveness Analysis by Application
10.14 North America Healthcare 3D Printing Market Size Forecast by Technology
10.14.1 Electron Beam Melting
10.14.2 Stereolithography
10.14.3 Droplet Deposition Manufacturing
10.15 Basis Point Share (BPS) Analysis by Technology
10.16 Absolute $ Opportunity Assessment by Technology
10.17 Market Attractiveness Analysis by Technology
Chapter 11 Europe Healthcare 3D Printing Analysis and Forecast
11.1 Introduction
11.2 Europe Healthcare 3D Printing Market Size Forecast by Country
11.2.1 Germany
11.2.2 France
11.2.3 Italy
11.2.4 U.K.
11.2.5 Spain
11.2.6 Russia
11.2.7 Rest of Europe
11.3 Basis Point Share (BPS) Analysis by Country
11.4 Absolute $ Opportunity Assessment by Country
11.5 Market Attractiveness Analysis by Country
11.6 Europe Healthcare 3D Printing Market Size Forecast by Raw Material
11.6.1 Biological Cells
11.6.2 Metals
11.6.3 Ceramics
11.6.4 Polymers
11.7 Basis Point Share (BPS) Analysis by Raw Material
11.8 Absolute $ Opportunity Assessment by Raw Material
11.9 Market Attractiveness Analysis by Raw Material
11.10 Europe Healthcare 3D Printing Market Size Forecast by Application
11.10.1 Surgical Guides
11.10.2 Surgical Instruments
11.10.3 Implants
11.10.4 Bioengineering
11.11 Basis Point Share (BPS) Analysis by Application
11.12 Absolute $ Opportunity Assessment by Application
11.13 Market Attractiveness Analysis by Application
11.14 Europe Healthcare 3D Printing Market Size Forecast by Technology
11.14.1 Electron Beam Melting
11.14.2 Stereolithography
11.14.3 Droplet Deposition Manufacturing
11.15 Basis Point Share (BPS) Analysis by Technology
11.16 Absolute $ Opportunity Assessment by Technology
11.17 Market Attractiveness Analysis by Technology
Chapter 12 Asia Pacific Healthcare 3D Printing Analysis and Forecast
12.1 Introduction
12.2 Asia Pacific Healthcare 3D Printing Market Size Forecast by Country
12.2.1 China
12.2.2 Japan
12.2.3 South Korea
12.2.4 India
12.2.5 Australia
12.2.6 South East Asia (SEA)
12.2.7 Rest of Asia Pacific (APAC)
12.3 Basis Point Share (BPS) Analysis by Country
12.4 Absolute $ Opportunity Assessment by Country
12.5 Market Attractiveness Analysis by Country
12.6 Asia Pacific Healthcare 3D Printing Market Size Forecast by Raw Material
12.6.1 Biological Cells
12.6.2 Metals
12.6.3 Ceramics
12.6.4 Polymers
12.7 Basis Point Share (BPS) Analysis by Raw Material
12.8 Absolute $ Opportunity Assessment by Raw Material
12.9 Market Attractiveness Analysis by Raw Material
12.10 Asia Pacific Healthcare 3D Printing Market Size Forecast by Application
12.10.1 Surgical Guides
12.10.2 Surgical Instruments
12.10.3 Implants
12.10.4 Bioengineering
12.11 Basis Point Share (BPS) Analysis by Application
12.12 Absolute $ Opportunity Assessment by Application
12.13 Market Attractiveness Analysis by Application
12.14 Asia Pacific Healthcare 3D Printing Market Size Forecast by Technology
12.14.1 Electron Beam Melting
12.14.2 Stereolithography
12.14.3 Droplet Deposition Manufacturing
12.15 Basis Point Share (BPS) Analysis by Technology
12.16 Absolute $ Opportunity Assessment by Technology
12.17 Market Attractiveness Analysis by Technology
Chapter 13 Latin America Healthcare 3D Printing Analysis and Forecast
13.1 Introduction
13.2 Latin America Healthcare 3D Printing Market Size Forecast by Country
13.2.1 Brazil
13.2.2 Mexico
13.2.3 Rest of Latin America (LATAM)
13.3 Basis Point Share (BPS) Analysis by Country
13.4 Absolute $ Opportunity Assessment by Country
13.5 Market Attractiveness Analysis by Country
13.6 Latin America Healthcare 3D Printing Market Size Forecast by Raw Material
13.6.1 Biological Cells
13.6.2 Metals
13.6.3 Ceramics
13.6.4 Polymers
13.7 Basis Point Share (BPS) Analysis by Raw Material
13.8 Absolute $ Opportunity Assessment by Raw Material
13.9 Market Attractiveness Analysis by Raw Material
13.10 Latin America Healthcare 3D Printing Market Size Forecast by Application
13.10.1 Surgical Guides
13.10.2 Surgical Instruments
13.10.3 Implants
13.10.4 Bioengineering
13.11 Basis Point Share (BPS) Analysis by Application
13.12 Absolute $ Opportunity Assessment by Application
13.13 Market Attractiveness Analysis by Application
13.14 Latin America Healthcare 3D Printing Market Size Forecast by Technology
13.14.1 Electron Beam Melting
13.14.2 Stereolithography
13.14.3 Droplet Deposition Manufacturing
13.15 Basis Point Share (BPS) Analysis by Technology
13.16 Absolute $ Opportunity Assessment by Technology
13.17 Market Attractiveness Analysis by Technology
Chapter 14 Middle East & Africa (MEA) Healthcare 3D Printing Analysis and Forecast
14.1 Introduction
14.2 Middle East & Africa (MEA) Healthcare 3D Printing Market Size Forecast by Country
14.2.1 Saudi Arabia
14.2.2 South Africa
14.2.3 UAE
14.2.4 Rest of Middle East & Africa (MEA)
14.3 Basis Point Share (BPS) Analysis by Country
14.4 Absolute $ Opportunity Assessment by Country
14.5 Market Attractiveness Analysis by Country
14.6 Middle East & Africa (MEA) Healthcare 3D Printing Market Size Forecast by Raw Material
14.6.1 Biological Cells
14.6.2 Metals
14.6.3 Ceramics
14.6.4 Polymers
14.7 Basis Point Share (BPS) Analysis by Raw Material
14.8 Absolute $ Opportunity Assessment by Raw Material
14.9 Market Attractiveness Analysis by Raw Material
14.10 Middle East & Africa (MEA) Healthcare 3D Printing Market Size Forecast by Application
14.10.1 Surgical Guides
14.10.2 Surgical Instruments
14.10.3 Implants
14.10.4 Bioengineering
14.11 Basis Point Share (BPS) Analysis by Application
14.12 Absolute $ Opportunity Assessment by Application
14.13 Market Attractiveness Analysis by Application
14.14 Middle East & Africa (MEA) Healthcare 3D Printing Market Size Forecast by Technology
14.14.1 Electron Beam Melting
14.14.2 Stereolithography
14.14.3 Droplet Deposition Manufacturing
14.15 Basis Point Share (BPS) Analysis by Technology
14.16 Absolute $ Opportunity Assessment by Technology
14.17 Market Attractiveness Analysis by Technology
Chapter 15 Competition Landscape
15.1 Healthcare 3D Printing Market: Competitive Dashboard
15.2 Global Healthcare 3D Printing Market: Market Share Analysis, 2019
15.3 Company Profiles (Details – Overview, Financials, Developments, Strategy)
15.3.1 polymers
15.3.2 ceramics
15.3.3 metals
15.3.4 the introduction of technological advancements in this frontier is expected to help this segment grow at a lucrative CAGR during the forecast period
15.3.5 biological cells Polymers led this market in terms of share in 2013 majorly owing to high usage rates Moreover
Segments Covered in the Report
The global Healthcare 3D Printing market has been segmented based on
By Raw Material
The global Healthcare 3D Printing market has been segmented based on
By Raw Material
- Biological Cells
- Metals
- Ceramics
- Polymers
- Surgical Guides
- Surgical Instruments
- Implants
- Bioengineering
- Electron Beam Melting
- Stereolithography
- Droplet Deposition Manufacturing
- Asia Pacific
- North America
- Latin America
- Europe
- Middle East & Africa
- polymers
- ceramics
- metals
- the introduction of technological advancements in this frontier is expected to help this segment grow at a lucrative CAGR during the forecast period
- biological cells Polymers led this market in terms of share in 2013 majorly owing to high usage rates Moreover
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