Wiseguyreports.Com Adds “3d Printing in Healthcare -Market Demand, Growth, Opportunities and Analysis Of Top Key Player Forecast To 2023” To Its Research Database
Global 3D printing in healthcare market is expected to grow at a CAGR of 22% during the forecast period of 2018-2023. The market is driven by growing popularity of 3D printing, rising demand for implants and technological advancement. 3D printing has been an attraction across the globe due to its property of producing exact functional prototype of an object. It is also known as additive manufacturing 3D printing that is mainly used for manufacturing implants. One of the main advantages that makes it better over the conventional implants is the level of customization. Conventional implants go by ‘one size fits all’ approach which may lead to severe complications for the patients. However, by using the 3D printing technology a physician can produce exact prototype of the patient’s bones. 3D printers are also being used to manufacture surgical equipment, surgical guides, hearing aids, tissue engineering and drug screening.
The technologies used to produce 3D printed products includes laser beam melting, droplet deposition, electronic beam melting and others. There are various types of materials that are used in 3D printing which includes plastics, polymers, ceramics, metals, alloys and others. R&D is going on to develop artificial organs using 3D printing technology. However, government regulations are strict, and it may take a long time before the commercialization of such technology.
Geographically, the global 3D printing in healthcare market is segmented into North America, Europe, Asia Pacific and Rest of the world. 3D printing in healthcare market has a strong presence in North America and Europe. High awareness and ease of availability are some of the driving factors for the 3D printing market. Asia Pacific market is expected to grow significantly at a high growth rate due to significant contribution from China, Japan and Korean region.
3D printing market in healthcare have many players that are contributing into the growth of the market. Some of the major players include 3D Biotek LLC., 3D Systems, Arcam AB, Beltone A/S, Cyfuse Biomedical K.K., EnvisionTEC GmbH, EOS GmbH, Organovo Holdings, Inc., Oxford Performance Materials Inc., Stratasys Ltd. and Stryker Corporation.
Key points considered for deriving the market numbers –
Annual reports of the companies
Average cost of 3D printing service
Average cost in different regions
Forward looking statements
R&D investment and funding
Global 3D printing in healthcare market is segmented on the basis of technology, application, materials and regional outlook.
Global 3D printing in healthcare Market Research and Analysis, By technology
Global 3D printing in healthcare Market Research and Analysis, By application
Global 3D printing in healthcare Market Research and Analysis, By materials
Global 3D printing in healthcare Market Research and Analysis, By Region
The Report covers:
Comprehensive research methodology of Global 3D printing in healthcare market.
This report also includes detailed and extensive market overview with key analyst insights.
Exhaustive analysis of macro and micro factors influencing the market guided by key recommendations.
Analysis of regional regulations and other government policies impacting the Global 3D printing in healthcare market.
Insights about market determinants which are stimulating the Global 3D printing in healthcare market.
Detailed and extensive market segments with regional distribution of forecasted revenues.
Extensive profiles and recent developments of market players.
Table of Content
1. REPORT SUMMARY
1.1. RESEARCH METHODS AND TOOLS
1.2. MARKET BREAKDOWN
1.2.1. BY SEGMENTS
1.2.2. BY GEOGRAPHY
1.2.3. BY STAKEHOLDERS
2. MARKET OVERVIEW AND INSIGHTS
3. MARKET DETERMINANT
4. MARKET SEGMENTATION
4.1. GLOBAL 3D PRINTING IN HEALTHCARE, BY TECHNOLOGY
4.1.1. DROPLET DEPOSITION
18.104.22.168. LOW-TEMPER DEPOSITION MANUFACTURING
22.214.171.124. FUSED DEPOSITION MODELLING
126.96.36.199. MULTIPHASE JET MODIFICATION
4.1.2. LASER BEAM MELTING
188.8.131.52. SELECTIVE LASER MELTING
184.108.40.206. SELECTIVE LASER SINTERING
220.127.116.11. DIRECT METAL LASER SINTERING
4.1.3. PHOTO POLYMERIZATION
18.104.22.168. DIGITAL LIGHT PROCESSING
22.214.171.124. TWO-PHOTON POLYMERIZATION
4.1.4. ELECTRON BEAM MELTING TECHNOLOGY
4.1.5. STEREO LITHOGRAPHY
4.1.6. LAMINATED OBJECT MANUFACTURING
4.1.7. WAX DEPOSITION MODELLING
4.1.8. BIO PRINTING
4.2. GLOBAL 3D PRINTING IN HEALTHCARE, BY APPLICATION
4.2.3. DENTAL IMPLANTS
4.2.4. SURGICAL GUIDES
126.96.36.199. DENTAL GUIDES
188.8.131.52. ORTHOPAEDIC GUIDES
4.2.5. SURGICAL INSTRUMENTS
4.2.6. HEARING AIDS
4.2.7. TISSUE ENGINEERING
4.2.8. DRUG SCREENING
4.3. GLOBAL 3D PRINTING IN HEALTHCARE, BY MATERIALS
4.3.1. PLASTICS AND POLYMERS
4.3.3. METAL ALLOY POWDER
4.3.6. BONE CEMENTS
5. COMPETITIVE LANDSCAPE
5.1. KEY STRATEGIES
5.2. KEY COMPANY ANALYSIS
6. REGIONAL ANALYSIS
7. COMPANY PROFILES
7.1.1. 3D BIOTEK LLC.
7.1.2. 3D SYSTEMS
7.1.3. ARCAM AB
7.1.4. BELTONE A/S
7.1.5. BIO3D TECHNOLOGIES
7.1.6. CYFUSE BIOMEDICAL K.K.
7.1.7. ENVISIONTEC GMBH
7.1.8. EOS GMBH
7.1.9. GYROBOT LIMITED
7.1.10. JAVELIN TECHNOLOGIES INC.
7.1.11. MATERIALISE NV
7.1.12. MEDICAL MODELING INC.
7.1.13. ORGANOVO HOLDINGS, INC.
7.1.14. OXFORD PERFORMANCE MATERIALS INC.
7.1.15. SLM SOLUTIONS GROUP AG
7.1.16. STRATASYS LTD.
7.1.17. STRYKER CORPORATION
7.1.18. TETHON 3D
7.1.19. TISSUE REGENERATION SYSTEMS INC.
7.1.20. XILLOC MEDICAL
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