REPORT OUTLOOK
Market Size | CAGR | Dominating Region |
---|---|---|
USD 9.38 Billion by 2030 | 7.5% | North America |
by Raw Material | by Application | by Technology |
---|---|---|
• Prototyping |
|
• Electron Beam Melting (EBM) |
SCOPE OF THE REPORT
3D Printing in Medical Application Market Overview
The 3D printing in Medical Applications market is expected to grow at 7.5% CAGR from 2023 to 2030. It is expected to reach above USD 9.38 Billion by 2030 from USD 3.26 Billion in 2023.
The innovative application of three-dimensional printing technology in the medical field to produce anatomical models tailored to each patient, implants, prosthetic limbs, and other medical devices is known as “3D printing in medical applications.” This novel method improves treatment accuracy and efficacy by precisely customizing medication components depending on each patient’s distinct traits. Digital models produced from medical imaging data, such as CT or MRI scans, are used in medical 3D printing as blueprints to create actual items layer by layer. Healthcare practitioners can now use this technology to plan procedures more precisely, create customized implants or prosthesis, and visualize intricate anatomical structures in a variety of medical specialties, including orthopedics, dentistry, and surgery. 3D printing is poised to revolutionize modern healthcare with its potential for tailored medical solutions, lower surgical risks, and better patient outcomes.
Healthcare practitioners can now use this technology to plan procedures more precisely, create customized implants or prosthesis, and visualize intricate anatomical structures in a variety of medical specialties, including orthopedics, dentistry, and surgery. 3D printing is poised to revolutionize modern healthcare with its potential for tailored medical solutions, lower surgical risks, and better patient outcomes. The revolutionary effects of 3D printing on the healthcare industry, along with its unparalleled advantages and creative solutions, make it a significant tool for medical applications. Because it enables medical professionals to customize patient care to each patient’s specific anatomy, this technology is essential to personalized medicine. The capacity to generate precise anatomical models aids in pre-operative planning, allowing surgeons to design and rehearse intricate procedures prior to operating room visits. This lowers the chance of problems while also improving surgical precision. To ensure a precise fit and maximum performance, 3D printing also makes it possible to produce implants and prostheses that are customized for each patient.
Furthermore, 3D printing expedites medical research and education in addition to improving patient care. By creating realistic learning tools, the development of comprehensive anatomical models supports medical education for both students and healthcare workers. By facilitating the quick development of medical tools and devices, technology also promotes creativity.
ATTRIBUTE | DETAILS |
Study period | 2020-2030 |
Base year | 2022 |
Estimated year | 2023 |
Forecasted year | 2023-2030 |
Historical period | 2019-2021 |
Unit | Value (USD Billion) (Thousand Units) |
Segmentation | By Raw material, Application, Technology and Region |
By Raw material |
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By Application |
|
By Technology |
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 By Region  |
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3D Printing in Medical Applications Market Segmentation Analysis
The global 3D Printing in Medical Application market is divided into three segments, by raw material, application, technology, end user and region. By raw material the market is bifurcated into metals, polymers, ceramics, biological cells, by application the market is bifurcated into surgical guides, implants, surgical instruments, bioengineering), by technology (electron beam melting (EBM), laser beam melting (LBM), photo polymerization, stereo lithography, droplet deposition manufacturing) and region.
Metals are the largest raw material segment in the 3D printing in Medical Applications Market, accounting for over 40% of the global market share. This is due to the strength and durability of metals, which makes them suitable for implants and surgical guides. Metals are also biocompatible, which means they can be implanted into the human body without causing any adverse reactions. With more than 35% of the global market share, polymers are the second-largest raw material sector in the 3D printing in medical applications market. This is because polymers are comparatively inexpensive and versatile materials. Medical applications for polymers include surgical guides, dental models, and prosthesis. Ceramics hold a significant market share of over 15% worldwide, making them the third largest raw material sector in the 3D Printing Medical Applications Market. This is because ceramics are wear-resistant and biocompatible, which makes them appropriate for use in implants. Moreover, ceramics are comparatively inert, which means the body is less likely to mount an immunological defense against them. With more than 10% of the worldwide market share, biological cells rank as the fourth-largest raw material category in the 3D printing for medical applications industry. This is because biological cells have the capacity to develop applications in regenerative medicine. Tissue scaffolds and organoids, which are intended to replace or repair damaged tissues and organs, can be made using biological cells.
The 3D printing market for medical applications has the largest application sector, surgical guides, with a global market share of more than 40%. This is because 3D printing is being used more often to produce surgical guides that are customized for each patient. The utilization of surgical guides can enhance patient outcomes by assisting surgeons in the planning and execution of surgeries with more accuracy. At over 30% of the worldwide market share, implants rank as the second-largest application sector in the 3D printing in medical applications industry. This results from the rising need for implants that are specifically tailored. Improved fit and functionality of the implant can result from the production of implants using 3D printing that are precisely matched to the anatomy of the patient.
Surgical instruments hold a significant market share of more than 20% worldwide, making it the third-largest application sector in the 3D printing market for medical applications. This is because making customized surgical devices via 3D printing is becoming more and more common. The efficiency and safety of surgery can be increased by using 3D printing to create surgical instruments that are specially made for a given procedure. Taking for more than 10% of the worldwide market share, bioengineering ranks as the fourth most significant application category in the 3D printing market for medical applications. The increasing use of 3D printing to produce organoids and tissue scaffolds is the cause of this. Organoids are tiny, functional organs that may be used to research disease and provide novel therapeutic approaches; tissue scaffolds are used to assist the development of new tissue.
3D Printing in Medical Applications Market Dynamics
Driver
Demand for Customized 3D Printing is Growing, Accelerating Market Growth in 3D Printing in Medical Applications.
One major factor propelling the market expansion for 3D printing in medical applications is the increasing need for customized 3D printing. The innate capacity of 3D printing to produce individualized and patient-specific solutions across a range of medical sectors is driving this increase in demand. The medical world is coming to understand the importance of customizing prostheses, implants, and treatments to fit each patient’s unique anatomy, and 3D printing fits right in with this demand for individualization. By using this technology, medical imaging data can be accurately translated into three-dimensional models that can be used as blueprints to create anatomical replicas or unique implants. Customization to this extent is especially important for complex surgeries, where preoperative preparation and training with 3D-printed models improve surgical accuracy and lower the risk of complications. The ability of 3D printing to meet unique patient needs and provide solutions that are more personally comfortable as well as more efficient is another factor contributing to the technology’s rapid adoption in the medical field. Patient outcomes are eventually improved by customized implants, prosthetics, and surgical guides because they offer a better fit and more functioning.
Restraint
High cost hampers the growth of 3D printing in medical applications market.
One of the main obstacles to 3D printing technology’s widespread acceptance in the healthcare industry is its expensive cost. For healthcare professionals, especially smaller practices or institutions with limited funding, the costs associated with both the purchase of specialist materials and the equipment necessary for 3D printing can be prohibitive. 3D printers are more expensive because of their sophisticated nature, which is intended to provide accuracy and variety in medical applications. Financial difficulties are exacerbated by continuing operational expenses, such as the cost of hiring qualified personnel to run and maintain 3D printers. In addition to being needed for the regular maintenance of the printers, trained staff members are also needed for troubleshooting, technical support, and maintaining the overall effectiveness of the 3D printing process. While there are many advantages to 3D printing in healthcare, such as better surgical planning and customized medical devices, some healthcare providers may be discouraged from adopting this game-changing technology due to cost concerns. In addition to continuous research and development aimed at producing more affordable 3D printing solutions, efforts are underway to offer financial support and incentives to healthcare institutions considering incorporating 3D printing into their operations in order to mitigate the high costs. In order to guarantee that more people can benefit from 3D printing’s advantages in improving patient care and medical results, the obstacle of high costs must be removed.
Opportunities
Precise pre-surgical planning, made possible by 3D printing, can lead to reduced surgical time and costs in 3D printing in medical applications market.
The application of 3D printing technology to preoperative planning has become a disruptive force in the medical industry, with the potential to drastically save surgical time and expenses. Healthcare practitioners can use this technology to start a methodical journey of accurate simulation and visualization prior to the real procedure. In order to give surgeons a three-dimensional image of the targeted location, this involves building intricate, patient-specific anatomical models using data from medical imaging. The ability to anticipate and plan for the complexities of each individual instance is where this approach’s tremendous influence rests. Through the use of virtual environments, surgeons can investigate the complexities of anatomical structures, recognize possible obstacles, and replicate the complete surgical process. Developing and improving patient-specific surgical procedures is made possible by this, which also improves their comprehension of the anatomy of the patient. Consequently, the pre-operative planning made possible by 3D printing helps to make medical procedures run more smoothly and effectively. With a thorough plan in hand, surgeons spend less time making decisions during surgery and are less likely to encounter unforeseen difficulties. A more concentrated and regulated surgical procedure is another benefit of precise visualization.
3D Printing in Medical Applications Market Trends
- One of the newest developments in medicine is bio printing, or the capacity to 3D print biological tissues and organs. Improved bio printing methods, novel bio-inks, and the challenges of generating vascularized, functional tissues for transplantation are the main areas of ongoing study and development.
- Point-of-care 3D printing is starting to become more and more popular. With the ability to produce patient-specific models, surgical guides, and even implants on demand, healthcare facilities are progressively incorporating 3D printing capabilities on their premises. This pattern lessens dependency on outside manufacturing while quickening decision-making procedures.
- The industry is seeing an increase in partnerships and cooperation between research organizations, healthcare facilities, and 3D printing enterprises. These partnerships seek to expedite the development and adoption of 3D printing solutions across a range of medical applications by pooling resources, combining expertise, and sharing resources.
- As medical uses for 3D printing proliferate, regulatory organizations are making concerted efforts to provide precise criteria and guidelines for safety and quality assurance. The creation of thorough regulatory frameworks guarantees the ethical and responsible incorporation of 3D printing technology into standard medical procedures.
- There is a growing trend in using 3D printing for the manufacturing of orthopedic implants and prosthetics. The ability to create customized implants tailored to the patient’s anatomy contributes to improved implant integration and overall functionality.
Competitive Landscape
We also have detailed analyses of the market’s competitive landscape and offer information on various market vendors, including-
- Stratasys Ltd
- Formlabs Inc.
- Organovo Holdings
- 3D Systems Corporation
- Oxferd Performance Materials
- Materialise NV
- SLM Solutions Group AG
- Exone Company
- Proto Labs
- General Electric
- Voxeljet Technology GmbH
- Nanoscribe GmbH
- 3D Systems Corporation
- Concept Laser GmbH
- EnvisionTEC
- Prodways Group
- Arcam AB
- Ultimaker BV
- Organovo Holdings
- Cyfuse Biomedical
- RegenHU Ltd
- Oxford Performance Materials
- Cybex
Recent Developments:
In October 2021: Stratasys entered into a partnership with France-based med-tech startup Bone 3D that will see healthcare institutions in France gain direct access to Stratasys 3D printing equipment.
November 6th, 2023: Voxeljet AG (NASDAQ: VJET), a leading global provider of industrial 3D printing solutions, announced today that FKM Sintertechnik GmbH has joined its VX1000 High Speed Sintering (HSS) beta program. FKM Sintertechnik, a pioneer and leading 3D printing service provider for powder bed laser sintering and laser powder bed fusion (LPBF), will expand its production capacity with the powerful 3D printer, reducing per-part costs while providing an unprecedented build volume. FKM Sintertechnik’s customers include well-known industrial companies in the automotive, aerospace and mechanical engineering industries.
Regional Analysis
North America is the market leading for 3D printing in medical applications because to its strong innovation ecosystem, rapid technological improvement, and broad adoption. A number of elements have come together to boost the region’s leadership, including a robust research and development environment, a well-established healthcare infrastructure, and a proactive attitude toward adopting cutting-edge technologies. Healthcare facilities and business leaders in the US, in particular, have been in the forefront of incorporating 3D printing into a variety of medical applications, from surgery planning and medical modeling to the creation of implants and prostheses tailored to each patient.
Target Audience for 3D Print in Medical Applications Market
- Healthcare Professionals and Surgeons
- Medical Institutions and Hospitals
- Medical Device Manufacturers
- Dental Professionals and Laboratories
- Researchers and Academia
- Medical Imaging Centers
- Regulatory Bodies and Policymakers
- Patients and Patient Advocacy Groups
- 3D Printing Technology Providers
Segments Covered in the 3D Printing in Medical Application Market Report
3D Printing in Medical Application Market by Raw Material
- Prototyping
- Metals
- Polymers
- Ceramics
- Biological Cells
3D Printing in Medical Application Market by Application
- Surgical Guides
- Implants
- Surgical Instruments
- Bioengineering
3D Printing in Medical Application Market by Technology
- Electron Beam Melting (EBM)
- Laser Beam Melting (LBM)
- Photo polymerization
- Stereo lithography
- Droplet Deposition Manufacturing
3D Printing in Medical Application Market by Region
- North America
- Europe
- Asia Pacific
- South America
- Middle East and Africa
Key Question Answered
- What is the expected growth rate of the 3D printing in Medical Application market over the next 7 years?
- Who are the major players in the 3D printing in Medical Application market and what is their market share?
- What are the end-user industries driving market demand and what is their outlook?
- What are the opportunities for growth in emerging markets such as Asia-Pacific, the Middle East, and Africa?
- How is the economic environment affecting the 3D printing in Medical Application market, including factors such as interest rates, inflation, and exchange rates?
- What is the expected impact of government policies and regulations on the 3D printing in Medical Application market?
- What is the current and forecasted size and growth rate of the global 3D printing in Medical Application market?
- What are the key drivers of growth in the 3D printing in Medical Application market?
- Who are the major players in the market and what is their market share?
- What are the distribution channels and supply chain dynamics in the 3D printing in Medical Application market?
- What are the technological advancements and innovations in the 3D printing in Medical Application market and their impact on product development and growth?
- What are the regulatory considerations and their impact on the market?
- What are the challenges faced by players in the 3D Printing in Medical Application market and how are they addressing these challenges?
- What are the opportunities for growth and expansion in the 3D printing in Medical Application market?
- What are the product offerings and specifications of leading players in the market?
Table of Content
- INTRODUCTION
- MARKET DEFINITION
- MARKET SEGMENTATION
- RESEARCH TIMELINES
- ASSUMPTIONS AND LIMITATIONS
- RESEARCH METHODOLOGY
- DATA MINING
- SECONDARY RESEARCH
- PRIMARY RESEARCH
- SUBJECT-MATTER EXPERTS’ ADVICE
- QUALITY CHECKS
- FINAL REVIEW
- DATA TRIANGULATION
- BOTTOM-UP APPROACH
- TOP-DOWN APPROACH
- RESEARCH FLOW
- DATA TYPES
- DATA MINING
- EXECUTIVE SUMMARY
- MARKET OVERVIEW
- GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET OUTLOOK
- MARKET DRIVERS
- MARKET RESTRAINTS
- MARKET OPPORTUNITIES
- IMPACT OF COVID-19 ON 3D PRINTING IN MEDICAL APPLICATIONS MARKET
- PORTER’S FIVE FORCES MODEL
- THREAT FROM NEW ENTRANTS
- THREAT FROM SUBSTITUTES
- BARGAINING POWER OF SUPPLIERS
- BARGAINING POWER OF CUSTOMERS
- DEGREE OF COMPETITION
- INDUSTRY VALUE CHAIN ANALYSIS
- GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET OUTLOOK
- GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL, 2020-2030, (USD BILLION) (THOUSAND UNITS)
- METALS
- POLYMERS
- CERAMICS
- BIOLOGICAL CELLS
- GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION, 2020-2030, (USD BILLION) (THOUSAND UNITS)
- METALS
- SURGICAL GUIDES
- IMPLANTS
- SURGICAL INSTRUMENTS
- BIOENGINEERING
- GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY, 2020-2030, (USD BILLION) (THOUSAND UNITS)
- ELECTRON BEAM MELTING (EBM)
- LASER BEAM MELTING (LBM)
- PHOTOPOLYMERIZATION
- STEREOLITHOGRAPHY
- DROPLET DEPOSITION MANUFACTURING
- GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY REGION, 2020-2030, (USD BILLION) (THOUSAND UNITS)
- NORTH AMERICA
- US
- CANADA
- MEXICO
- SOUTH AMERICA
- BRAZIL
- ARGENTINA
- COLOMBIA
- REST OF SOUTH AMERICA
- EUROPE
- GERMANY
- UK
- FRANCE
- ITALY
- SPAIN
- RUSSIA
- REST OF EUROPE
- ASIA PACIFIC
- INDIA
- CHINA
- JAPAN
- SOUTH KOREA
- AUSTRALIA
- SOUTH-EAST ASIA
- REST OF ASIA PACIFIC
- MIDDLE EAST AND AFRICA
- UAE
- SAUDI ARABIA
- SOUTH AFRICA
- REST OF MIDDLE EAST AND AFRICA
- NORTH AMERICA
- COMPANY PROFILES*
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(BUSINESS OVERVIEW, COMPANY SNAPSHOT, PRODUCT OFFERED, RECENT DEVELOPMENTS)
- STRATASYS LTD
- FORMLABS INC.
- ORGANOVO HOLDINGS
- 3D SYSTEMS CORPORATION
- OXFERD PERFORMANCE MATERIALS
- MATERIALISE NV
- SLM SOLUTIONS GROUP AG
- EXONE COMPANY
- PROTO LABS
- GENERAL ELECTRIC
- VOXELJET TECHNOLOGY GMBH
- NANOSCRIBE GMBH
- 3D SYSTEMS CORPORATION
- CONCEPT LASER GMBH
- ENVISIONTEC
- PRODWAYS GROUP
- ARCAM AB
- ULTIMAKER BV
- ORGANOVO HOLDINGS
- CYFUSE BIOMEDICAL
- REGENHU LTD
- OXFORD PERFORMANCE MATERIALS
- CYBEX
*THE COMPANY LIST IS INDICATIVE
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LIST OF TABLES
TABLE 1 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 2 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 3 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 4 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 5 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 6 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 7 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY REGION (USD BILLION) 2020-2030
TABLE 8 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY REGION (THOUSAND UNITS) 2020-2030
TABLE 9 NORTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 10 NORTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 11 NORTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 12 NORTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 13 NORTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 14 NORTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 15 NORTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 16 NORTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 17 US 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 18 US 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 19 US 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 20 US 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 21 US 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 22 US 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 23 CANADA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 24 CANADA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 25 CANADA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 26 CANADA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 27 CANADA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 28 CANADA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 29 MEXICO 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 30 MEXICO 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 31 MEXICO 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 32 MEXICO 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 33 MEXICO 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 34 MEXICO 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 35 SOUTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 36 SOUTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 37 SOUTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 38 SOUTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 39 SOUTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 40 SOUTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 41 SOUTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 42 SOUTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 43 BRAZIL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 44 BRAZIL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 45 BRAZIL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 46 BRAZIL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 47 BRAZIL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 48 BRAZIL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 49 ARGENTINA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 50 ARGENTINA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 51 ARGENTINA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 52 ARGENTINA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 53 ARGENTINA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 54 ARGENTINA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 55 COLOMBIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 56 COLOMBIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 57 COLOMBIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 58 COLOMBIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 59 COLOMBIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 60 COLOMBIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 61 REST OF SOUTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 62 REST OF SOUTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 63 REST OF SOUTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 64 REST OF SOUTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 65 REST OF SOUTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 66 REST OF SOUTH AMERICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 67 ASIA-PACIFIC 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 68 ASIA-PACIFIC 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 69 ASIA-PACIFIC 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 70 ASIA-PACIFIC 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 71 ASIA-PACIFIC 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 72 ASIA-PACIFIC 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 73 ASIA-PACIFIC 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 74 ASIA-PACIFIC 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 75 INDIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 76 INDIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 77 INDIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 78 INDIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 79 INDIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 80 INDIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 81 CHINA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 82 CHINA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 83 CHINA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 84 CHINA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 85 CHINA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 86 CHINA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 87 JAPAN 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 88 JAPAN 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 89 JAPAN 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 90 JAPAN 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 91 JAPAN 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 92 JAPAN 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 93 SOUTH KOREA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 94 SOUTH KOREA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 95 SOUTH KOREA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 96 SOUTH KOREA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 97 SOUTH KOREA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 98 SOUTH KOREA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 99 AUSTRALIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 100 AUSTRALIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 101 AUSTRALIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 102 AUSTRALIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 103 AUSTRALIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 104 AUSTRALIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 105 SOUTH-EAST ASIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 106 SOUTH-EAST ASIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 107 SOUTH-EAST ASIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 108 SOUTH-EAST ASIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 109 SOUTH-EAST ASIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 110 SOUTH-EAST ASIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 111 REST OF ASIA PACIFIC 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 112 REST OF ASIA PACIFIC 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 113 REST OF ASIA PACIFIC 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 114 REST OF ASIA PACIFIC 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 115 REST OF ASIA PACIFIC 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 116 REST OF ASIA PACIFIC 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 117 EUROPE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 118 EUROPE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 119 EUROPE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 120 EUROPE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 121 EUROPE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 122 EUROPE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 123 EUROPE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 124 EUROPE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 125 GERMANY 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 126 GERMANY 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 127 GERMANY 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 128 GERMANY 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 129 GERMANY 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 130 GERMANY 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 131 UK 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 132 UK 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 133 UK 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 134 UK 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 135 UK 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 136 UK 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 137 FRANCE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 138 FRANCE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 139 FRANCE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 140 FRANCE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 141 FRANCE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 142 FRANCE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 143 ITALY 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 144 ITALY 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 145 ITALY 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 146 ITALY 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 147 ITALY 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 148 ITALY 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 149 SPAIN 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 150 SPAIN 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 151 SPAIN 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 152 SPAIN 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 153 SPAIN 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 154 SPAIN 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 155 RUSSIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 156 RUSSIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 157 RUSSIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 158 RUSSIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 159 RUSSIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 160 RUSSIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 161 REST OF EUROPE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 162 REST OF EUROPE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 163 REST OF EUROPE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 164 REST OF EUROPE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 165 REST OF EUROPE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 166 REST OF EUROPE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 167 MIDDLE EAST AND AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 168 MIDDLE EAST AND AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 169 MIDDLE EAST AND AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 170 MIDDLE EAST AND AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 171 MIDDLE EAST AND AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 172 MIDDLE EAST AND AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 173 MIDDLE EAST AND AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 174 MIDDLE EAST AND AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 175 UAE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 176 UAE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 177 UAE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 178 UAE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 179 UAE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 180 UAE 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 181 SAUDI ARABIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 182 SAUDI ARABIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 183 SAUDI ARABIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 184 SAUDI ARABIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 185 SAUDI ARABIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 186 SAUDI ARABIA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 187 SOUTH AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 188 SOUTH AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 189 SOUTH AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 190 SOUTH AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 191 SOUTH AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 192 SOUTH AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
TABLE 193 REST OF MIDDLE EAST AND AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
TABLE 194 REST OF MIDDLE EAST AND AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (THOUSAND UNITS) 2020-2030
TABLE 195 REST OF MIDDLE EAST AND AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 196 REST OF MIDDLE EAST AND AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 197 REST OF MIDDLE EAST AND AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
TABLE 198 REST OF MIDDLE EAST AND AFRICA 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (THOUSAND UNITS) 2020-2030
LIST OF FIGURES
 FIGURE 1 MARKET DYNAMICS
FIGURE 2 MARKET SEGMENTATION
FIGURE 3 REPORT TIMELINES: YEARS CONSIDERED
FIGURE 4 DATA TRIANGULATION
FIGURE 5 BOTTOM-UP APPROACH
FIGURE 6 TOP-DOWN APPROACH
FIGURE 7 RESEARCH FLOW
FIGURE 8 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2020-2030
FIGURE 9 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2020-2030
FIGURE 10 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2020-2030
FIGURE 11 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY REGION (USD BILLION) 2020-2030
FIGURE 12 PORTER’S FIVE FORCES MODEL
FIGURE 13 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY RAW MATERIAL (USD BILLION) 2022
FIGURE 14 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY APPLICATION (USD BILLION) 2022
FIGURE 15 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY TECHNOLOGY (USD BILLION) 2022
FIGURE 16 GLOBAL 3D PRINTING IN MEDICAL APPLICATIONS MARKET BY REGION (USD BILLION) 2022
FIGURE 17 MARKET SHARE ANALYSIS
FIGURE 18 STRATASYS LTD: COMPANY SNAPSHOT
FIGURE 19 FORMLABS INC.: COMPANY SNAPSHOT
FIGURE 20 ORGANOVO HOLDINGS: COMPANY SNAPSHOT
FIGURE 21 3D SYSTEMS CORPORATION: COMPANY SNAPSHOT
FIGURE 22 OXFERD PERFORMANCE MATERIALS: COMPANY SNAPSHOT
FIGURE 23 MATERIALISE NV: COMPANY SNAPSHOT
FIGURE 24 SLM SOLUTIONS GROUP AG: COMPANY SNAPSHOT
FIGURE 25 EXONE COMPANY: COMPANY SNAPSHOT
FIGURE 26 PROTO LABS: COMPANY SNAPSHOT
FIGURE 27 GENERAL ELECTRIC: COMPANY SNAPSHOT
FIGURE 28 VOXELJET TECHNOLOGY GMBH: COMPANY SNAPSHOT
FIGURE 29 NANOSCRIBE GMBH: COMPANY SNAPSHOT
FIGURE 30 3D SYSTEMS CORPORATION: COMPANY SNAPSHOT
FIGURE 31 CONCEPT LASER GMBH: COMPANY SNAPSHOT
FIGURE 32 ENVISIONTEC: COMPANY SNAPSHOT
FIGURE 33 PRODWAYS GROUP: COMPANY SNAPSHOT
FIGURE 34 ARCAM AB: COMPANY SNAPSHOT
FIGURE 35 ULTIMAKER BV: COMPANY SNAPSHOT
FIGURE 36 ORGANOVO HOLDINGS: COMPANY SNAPSHOT
FIGURE 37 CYFUSE BIOMEDICAL: COMPANY SNAPSHOT
FIGURE 38 REGENHU LTD: COMPANY SNAPSHOT
FIGURE 39 OXFORD PERFORMANCE MATERIALS: COMPANY SNAPSHOT
FIGURE 40 CYBEX: COMPANY SNAPSHOT
FAQ
The global 3D printing in Medical Application market is anticipated to grow from USD 2.08 Billion in 2023 to USD 2.65 Billion by 2030, at a CAGR of 3.5% during the forecast period.
North America accounted for the largest market in the 3D printing in Medical Application market. North America accounted for 35 % market share of the global market value.
Stratasys Ltd, Formlabs Inc., Organovo Holdings, 3D Systems Corporation, Oxferd Performance Materials, Materialise NV, SLM Solutions Group AG, Exone Company, Proto Labs, General Electric, Voxeljet Technology GmbH, Nanoscribe GmbH,3D Systems Corporation, Concept Laser GmbH, EnvisionTEC, Prodways Group, Arcam AB, Ultimaker BV,Organovo Holdings, Cyfuse Biomedical, RegenHU Ltd, Oxford Performance Materials, Cybex.
3D printing is being used more frequently in medical education and training programs to improve the learning process. Realistic anatomical models may now be created for instructional reasons thanks to technology, providing healthcare professionals and students with opportunities for practical training.
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