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3D Printing in Healthcare Market - Forecast (2020 - 2025)

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    Report

  • 105 Pages
  • March 2020
  • Region: Global
  • IndustryARC
  • ID: 3339393
3D Printing in Healthcare Market Overview:

The global 3D Printing in Healthcare market was valued at $797.7 million in 2017 and is estimated to grow at a CAGR of 18.3% throughout the forecast period (2020-2025). North America is the leading market in the 3D Printing in Healthcare Market with 39.7% of the total share and it is followed by Europe. 3D Printing in Healthcare Market in the Asia Pacific region is growing at a significant pace and the share of Europe and the APAC combined was 37% of the global market. Plastic materials used in 3D printing in healthcare are projected to grow at an impressive rate, it is expected that the total plastics shipped for medical printing purposes would be over 570 tons in 2020. In the technology used, Laminated Object Manufacturing technology is expected to grow to $372.8 million by 2023 at a CAGR of 15.5%. Stereo Lithography Technology is estimated to grow with the highest CAGR of 31.7% to reach $165.8 million by 2025.

3D Printing in Healthcare Market Outlook:

3D Printing in Healthcare is of many types like Selective Laser Sintering (SLS), Thermal Inkjet Printing (TIJ), Fused Deposition Modeling (FDM), Stereo Lithography (SLA), Binder Jetting (BJ), Material Jetting and others. These use different technologies for 3D printing which include Laser Beam Melting (LBM), Electron Beam Melting (EBM), Photo Polymerization, Droplet Deposition, Laminated Object Manufacturing, Wax Deposition Modeling and Bio Printing. The applications of 3D printers in healthcare include medical uses such as organ fabrication, anatomical models, and the creation of customized prosthetics, drugs and tablets and many more. The end users include Prosthetics, Medical Components, Tissue Engineering, Hearing Aids, Surgical Guides, Dental Implants, Drug Screening and many more. 3D printing has been used by the manufacturing industry for decades to produce product prototypes. Many manufacturers use large, fast 3D printers called rapid prototyping machines to create models and molds.

3D Printing in Healthcare Market report comprises of pricing analysis for different types of 3D printing in healthcare. The average prices of 3D printers used in healthcare will range from $60,000 to $80,000 by 2020.

3D Printing in Healthcare Market Growth Drivers: One of the main drivers in the global 3D Printing in Healthcare Market is the growing use of this technology in many applications like transplantation, drug delivery, 3D printed organs and many others in the healthcare industry. Rising demand for implant customizations during surgical procedures coupled with growing R&D investments is also driving the global 3D Printing in healthcare market. 

3D Printing in Healthcare Market Challenges: One of the major challenges in the global 3D Printing in Healthcare Market is the high cost of 3D printers. Technologies like stereolithography, laser beam, electron beam, photopolymerization and droplet deposition techniques are way too costly.

3D Printing in Healthcare Market

3D Printing in Healthcare Market Research Scope:

The base year of the study is 2017, with forecast done up to 2023. The study presents a thorough analysis of the competitive landscape, taking into account the market shares of the leading companies. It also provides information on unit shipments. These provide the key market participants with the necessary business intelligence and help them understand the future of the 3D Printing in Healthcare market. The assessment includes the forecast, an overview of the competitive structure, the market shares of the competitors, as well as the market trends, market demands, market drivers, market challenges, and product analysis. The market drivers and restraints have been assessed to fathom their impact over the forecast period. This report further identifies the key opportunities for growth while also detailing the key challenges and possible t              hreats. The key areas of focus include the types of 3D Printing in the Healthcare market and their specific applications in different types of vehicles.

3D Printing in Healthcare Market Report: Industry Coverage

3D Printing in Healthcare Market Technologies: Laser Beam Melting (LBM), Electron Beam Melting (EBM), Photo Polymerization, Droplet Deposition, Laminated Object Manufacturing, Wax Deposition Modeling and Bio Printing.

Materials in 3D printing in Healthcare: Donor Cells, Plastics, Photopolymers, Metals, Ceramics, Bone Cement, Polylactic Acid (PLA) and Others.

Applications of 3D Printing in Healthcare: Prosthetics, Surgical Implants, Hearing Aids, Dental Implants, Tissue Engineering, Drug Screening, Surgical Guides, Medical Components and Others

3D Printing in Healthcare, Types: Selective Laser Sintering (SLS), Thermal Inkjet Printing (TIJ), Fused Deposition Modeling (FDM), Stereo Lithography (SLA), Binder Jetting (BJ) and Material Jetting.

3D Printing in Healthcare market report also analyzes the major geographic regions for the market as well as the major countries for the market in these regions. The regions and countries covered in the study include:

North America: The U.S., Canada, Mexico

South America: Brazil, Venezuela, Argentina, Ecuador, Peru, Colombia, Costa Rica

Europe: The U.K., Germany, Italy, France, The Netherlands, Belgium, Spain, Denmark

APAC: China, Japan, Australia, South Korea, India, Taiwan, Malaysia, Hong Kong

The Middle East and Africa: Israel, South Africa, Saudi Arabia

3D Printing in Healthcare Market Key Players:

Some of the key players mentioned in this report are Javelin Technologies, Hewlett Packard, Medical Molding Inc, Proto Labs, 3D Systems, Stratasys, SLM Solutions Group, Nano Dimension, ExOne, Organovo and Voxeljet among others.

3D Printing in Healthcare Market Trends:

On February 2018, Johnson&Johnson’s has announced the launch of a Global Centre of Excellence for 3D bioprinting at the Trinity College Dublin, Ireland. This new facility which is a collaboration between Johnson & Jonhson's and AMBER research will serve as a 3D bioprinting research laboratory. It is expected to be operational before the beginning of 2019, the facility will also conduct research in the field of orthopaedics and is expected to transform the delivery of healthcare services for patients and consumers.

Engineers from Pohang University of Science and Technology, South Korea have successfully developed “bio-blood-vessels” from a 3D printer using material extracted from the human body as a template. These blood vessels are also capable of acting as drug carriers that will release the drug into its inserted surroundings thereby increasing the likelihood of a successful implant.

Spanish Scientists from the Universidad Carlos III de Madrid, Spain, Center for Energy, Environmental and Technological Research (CIEMAT), Hospital General Universitario Gregorio Marañón, in collaboration with the firm BioDan Group, Spain, have presented a prototype for a 3D bioprinter that can create totally functional human skin. This skin is adequate for transplanting to patients or for use in research or the testing of cosmetic, chemical, and pharmaceutical products.

In August 2016, the FDA approved an epilepsy drug called Spritam that is made by 3D printers. It prints out the powdered drug layer by layer to make it dissolve faster than average pills. It is reported that scientists from University College of London have discovered a new way of printing drugs for children. The scientists are designing pills in the shape of octopuses, dinosaurs or cartoon characters so that it will be easier for kids to take pills.


Table of Contents

1. 3D Printing in Healthcare Market - Overview
1.1. Definitions and Scope
2. 3D Printing in Healthcare Market - Executive summary
2.1. Market Revenue, Market Size and Key Trends by Company
2.2. Key Trends by type of Application
2.3. Key Trends segmented by Geography
3. 3D Printing in Healthcare Market
3.1. Comparative analysis
3.1.1. Product Benchmarking - Top 10 companies
3.1.2. Top 5 Financials Analysis
3.1.3. Market Value split by Top 10 companies
3.1.4. Patent Analysis - Top 10 companies
3.1.5. Pricing Analysis
4. 3D Printing in Healthcare Market Forces
4.1. Drivers
4.2. Constraints
4.3. Challenges
4.4. Porters five force model
4.4.1. Bargaining power of suppliers
4.4.2. Bargaining powers of customers
4.4.3. The threat of new entrants
4.4.4. Rivalry among existing players
4.4.5. Threat of substitutes
5. 3D Printing in Healthcare Market -Strategic analysis
5.1. Value chain analysis
5.2. Opportunities analysis
5.3. Product lifecycle
5.4. Suppliers and distributors Market Share
6. 3D Printing in Healthcare Market – By Technology (Market Size -$Million / $Billion)
6.1. Market Size and Market Share Analysis
6.2. Application Revenue and Trend Research
6.3. By Product Segment Analysis
6.3.1. Laser Beam Melting (LBM)
6.3.2. Electron Beam Melting (EBM)
6.3.3. Photo Polymerization
6.3.4. Droplet Deposition
6.3.5. Laminated Object Manufacturing
6.3.6. Wax Deposition Modeling
6.3.8. Bio Printing
7. 3D Printing in Healthcare Market – By Type (Market Size -$Million / $Billion)
7.1. Selective Laser Sintering (SLS)
7.2. Thermal Inkjet Printing (TIJ)
7.3. Fused Deposition Modeling (FDM)
7.4. Stereo Lithography (SLA)
7.5. Binder Jetting (BJ)
7.6. Material Jetting
8. 3D Printing in Healthcare Market – By Material (Market Size -$Million / $Billion)
8.1. Donor Cells
8.2. Plastics/Polymers
8.2.1. Nylon
8.2.2. Acrylonitrile Butadiene Styrene (ABS)
8.2.3. Polylactic acid (PLA)
8.3. Photopolymers
8.4. Metals
8.4.1. Titanium
8.4.2. Aluminum
8.4.3. Stainless Steel
8.5. Ceramics
8.5.1. Glass
8.5.2. Silica
8.5.3. Porcelain
8.6. Bone Cement
8.7. Others
9. 3D Printing in Healthcare – Applications (Market Size -$Million / $Billion)
9.1. Prosthetics
9.1.1. Finger Splints
9.1.2. Hip disarticulation
9.1.3. Lower limb/extremity componentry
9.1.4. Shank and connectors
9.2. Surgical Instruments
9.2.1. Implants
9.2.1.1. Orthopedic Implants
9.2.1.2. Prosthetic Implants
9.2.1.3. Spinal Rods
9.2.1.4. Bone Plates
9.2.1.5. Cranial Implants
9.2.1.6. Others
9.3. Tissue Engineering
9.4. Medical Components & 3D anatomical models
9.5. Hearing Aids
9.6. Drug Screening
9.7. Laboratory and Manufacturing Tools
9.8. Dental
9.8.1. Implants
9.8.1.1. Sub-Periosteal Implants
9.8.1.2. Endosteal Implants
9.8.2. Prosthodontics
9.8.3. Orthodontics
9.8.4. Dentures
9.8.5. Others
10. 3D Printing in Healthcare - By Geography (Market Size -$Million / $Billion)
10.1. 3D Printing in Healthcare Market - North America Segment Research
10.2. North America Market Research (Million / $Billion)
10.2.1. Segment type Size and Market Size Analysis
10.2.2. Revenue and Trends
10.2.3. Application Revenue and Trends by type of Application
10.2.4. Company Revenue and Product Analysis
10.2.5. North America Product type and Application Market Size
10.2.5.1. The U.S.
10.2.5.2. Canada
10.2.5.3. Mexico
10.2.5.4. Rest of North America
10.3. 3D Printing in Healthcare - South America Segment Research
10.4. South America Market Research (Market Size -$Million / $Billion)
10.4.1. Segment type Size and Market Size Analysis
10.4.2. Revenue and Trends
10.4.3. Application Revenue and Trends by type of Application
10.4.4. Company Revenue and Product Analysis
10.4.5. South America Product type and Application Market Size
10.4.5.1. Brazil
10.4.5.2. Venezuela
10.4.5.3. Argentina
10.4.5.4. Ecuador
10.4.5.5. Peru
10.4.5.6. Colombia
10.4.5.7. Costa Rica
10.4.5.8. Rest of South America
10.5. 3D Printing in Healthcare - Europe Segment Research
10.6. Europe Market Research (Market Size -$Million / $Billion)
10.6.1. Segment type Size and Market Size Analysis
10.6.2. Revenue and Trends
10.6.3. Application Revenue and Trends by type of Application
10.6.4. Company Revenue and Product Analysis
10.6.5. Europe Segment Product type and Application Market Size
10.6.5.1. U.K
10.6.5.2. Germany
10.6.5.3. Italy
10.6.5.4. France
10.6.5.5. Netherlands
10.6.5.6. Belgium
10.6.5.7. Spain
10.6.5.8. Denmark
10.6.5.9. Rest of Europe
10.7. 3D Printing in Healthcare – APAC Segment Research
10.8. APAC Market Research (Market Size -$Million / $Billion)
10.8.1. Segment type Size and Market Size Analysis
10.8.2. Revenue and Trends
10.8.3. Application Revenue and Trends by type of Application
10.8.4. Company Revenue and Product Analysis
10.8.5. APAC Segment – Product type and Application Market Size
10.8.5.1. China
10.8.5.2. Australia
10.8.5.3. Japan
10.8.5.4. South Korea
10.8.5.5. India
10.8.5.6. Taiwan
10.8.5.7. Malaysia
10.8.5.8. Hong Kong
10.8.5.9. Rest of APAC
10.9. 3D Printing in Healthcare – Middle East Segment and Africa Segment Research
10.10. Middle East & Africa Market Research (Market Size -$Million / $Billion)
10.10.1. Segment type Size and Market Size Analysis
10.10.2. Revenue and Trend Analysis
10.10.3. Application Revenue and Trends by type of Application
10.10.4. Company Revenue and Product Analysis
10.10.5. Middle East Segment Product type and Application Market Size
10.10.5.1. Israel
10.10.5.2. Saudi Arabia
10.10.5.3. UAE
10.10.6. Africa Segment Analysis
10.10.6.1. South Africa
10.10.6.2. Rest of Middle East & Africa
11. 3D Printing in Healthcare Market - Entropy
11.1. New product launches
11.2. M&A's, collaborations, JVs and partnerships
12. 3D Printing in Healthcare Market Company Analysis
12.1. Market Share, Company Revenue, Products, M&A, Developments
12.2. Javelin Technologies
12.3. Hewlett Packard
12.4. Medical Molding Inc
12.5. Proto Labs
12.6. 3D Systems
12.7. Stratasys
12.8. SLM Solutions Group
12.9. Nano Dimension
12.10. ExOne
12.12. Company 11
13. 3D Printing in Healthcare Market -Appendix
13.1. Abbreviations
13.2. Sources

Methodology

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