3D Print Medical Device Software Market by Type (Design Software, Analysis Software, Planning Software, Printing Software, And Visualization Software), Function (Implants, Surgical Instruments, Prosthetics, Tissue Engineering, And External Wearable Devices), Application (Medical Imaging, Dental Procedures, Surgery, Research, Physical Therapy, And Aesthetic Medicine), End Use (Span Medical Device Companies, Dental Laboratories, Hospitals, Clinics, And Research Institutes) and Region, Global trends and forecast from 2024 to 2030

Published on: Jan 2024
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Market Size	CAGR	Dominating Region
USD 48.02 Billion by 2030	16.21 %	North America

by Type	by Function	by Application	by End Use
Design Software Analysis Software Planning Software Printing Software Visualization Software	Implants Surgical Instruments Prosthetics Tissue Engineering External Wearable Devices	Medical Imaging Dental Surgery Research Physical Therapy Aesthetic Medicine	Medical Device Companies Dental Laboratories Hospitals and Clinics Research Institutes

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3D Print Medical Device Software Market Overview

The global 3D print medical device software market is expected to grow from USD 16.78 Billion in 2023 to USD 48.02 Billion by 2030, at a Compound Annual Growth Rate (CAGR) of 16.21 % during the forecast period.

3D Printed Medical Device Software is a sort of software that is used to create, analyse, plan, and produce medical equipment utilizing 3D printing technology. 3D printing is the method of manufacturing three-dimensional items from a digital file. This technique has the potential to revolutionize the medical device business by enabling the fabrication of custom-made medical devices that are more precise, effective, and inexpensive than standard manufacturing processes. Design software is used for the delicate and exact modelling of 3D objects, enabling for the construction of detailed representations of medical equipment. Analysis software is used to test and evaluate the structural integrity, performance, and applicability of the created models. Planning software is essential for planning and optimising the 3D printing process, assuring effective output.

Design software enables the methodical construction of precise 3D models capable of capturing the complexities necessary for medical applications. The structural integrity and performance of these models are evaluated using analysis tools to ensure they fulfil demanding medical criteria. Planning software helps to strategize the 3D printing process by optimising settings for efficiency and precision. The printing software component manages the actual printing process, regulating the machinery to convert computer designs into real items layer by layer. Visualization software is essential for evaluating and analyzing 3D models, as well as for quality control and refining.

3D Print Medical Device Software Market | Exactitude Consultancy

3D-Printed Medical Equipment Software is critical to the healthcare and medical device manufacturing industries due to its revolutionary effects on efficiency, innovation, and customization. It makes it possible to construct extremely complex and patient-specific medical devices, such as surgical equipment, prosthetics, and implants. This degree of personalization is essential for minimising the chance of problems, enhancing treatment results, and adjusting medical solutions to each patient’s unique demands. By ensuring that the medical devices are developed to fulfil strict quality and safety requirements, the software’s analytical skills guarantee both structural integrity and functionality.

Moreover, the planning and printing features optimize parameters for accuracy, cost-effectiveness, and efficiency, streamlining the entire additive manufacturing process. This leads to a manufacturing procedure that is more responsive and agile, enabling quick design iterations and prototyping. The software’s visualization feature facilitates quality control by enabling thorough evaluation, guaranteeing that the finished goods meet the desired standards.

A crucial motivator is the software’s capacity to assist the production of highly customised and patient-specific medical devices. The precise design capabilities of the software meet the demand for personalised healthcare solutions, such as implants, prosthetics, and surgical equipment adapted to specific anatomies. Another driver is advancements in 3D printing technology, which has increased printing resolution, compatibility with medical-grade materials, and expanded printing capabilities. This technical improvement enables the development of increasingly complicated and useful medical devices, and software is critical to harnessing these developments for maximum results.

ATTRIBUTE	DETAILS
Study period	2020-2030
Base year	2022
Estimated year	2023
Forecasted year	2023-2030
Historical period	2019-2021
Unit	Value (USD Billion) Volume (Thousand Units)
Segmentation	By Type, Function, Application, End Use and Region
By Type	Design Software Analysis Software Planning Software Printing Software Visualization Software
By Function	Implants Surgical Instruments Prosthetics Tissue Engineering External Wearable Devices
By Application	Medical Imaging Dental Surgery Research Physical Therapy Aesthetic Medicine
By End Use	Medical Device Companies Dental Laboratories Hospitals and Clinics Research Institutes
By Region	North America Asia Pacific Europe South America Middle East Asia & Africa

3D Print Medical Device Software Market Segmentation Analysis

The 3D print medical device software market offers a range of types, including design software, analysis software, planning software, printing software, and visualization software. By function the market is divided into implants, surgical instruments, prosthetics, tissue engineering, and external wearable devices. By application, the market is divided into up to medical imaging, dental procedures, surgery, research, physical therapy, and aesthetic medicine. By end-user the market is classified into span medical device companies, dental laboratories, hospitals, clinics, and research institutes.

Based on function, implants segment dominating in the 3D print medical device software market. The implants category includes a wide range of medical devices, such as orthopaedic implants, dental implants, and other prostheses. The most significant benefits of 3D Print Medical Device Software in the context of implants are its ability to adjust designs to specific patient anatomies with remarkable accuracy. This level of personalization is critical in meeting patients’ various and individual needs, hence improving implant compatibility and efficacy. The software’s analytical skills are critical in ensuring that these implants meet high quality and safety criteria, including structural integrity, biocompatibility, and functioning.

3D Print Medical Device Software helps the design and fabrication of specialised equipment used in surgical operations in the field of surgical instruments. This equipment may be customised to fulfil the individual needs of surgical treatments, taking into account issues like ergonomics, functionality, and surgeon preferences. The prosthetics section is distinguished by the use of 3D printing technology to create customised artificial limbs and body parts. The programme enables the creation of prostheses that closely resemble the form and function of natural limbs, improving comfort and movement for those who have lost limbs. The external wearable devices category includes the design and manufacture of external wearable medical equipment such as personalised medical braces, supports, or monitoring systems. 3D printing, aided by specialised software, enables the development of ergonomic and patient-specific wearable solutions.

Based on application, medical imaging segment dominating in the 3D print medical device software market. The prominence of the medical imaging sector in the 3D Print Medical Device Software market demonstrates the substantial influence of 3D printing and sophisticated software on medical imaging. This application includes the creation of precise anatomical models using imaging data such as CT scans or MRIs. The programme critically turns these datasets into 3D models, allowing healthcare providers to precisely visualise patient-specific anatomy. It gives surgeons with 3D reproductions for thorough learning and practise during pre-surgical preparation. These models are also useful in medical education, providing realistic representations for training. Furthermore, the software aids in the construction of patient-specific surgical guides and instruments, ensuring exact tool alignment throughout surgeries.

Dental apps use software to precisely develop patient-specific implants and prosthesis. In surgery, the programme creates unique surgical guides and equipment, improving precision and shortening operating hours. The construction of anatomical models assists research by expanding medical understanding and testing innovative equipment. The programme, according to Physical Therapy, facilitates the building of personalised braces and supports, meeting specific rehabilitation demands. Aesthetic Medicine employs technology to create patient-specific solutions for cosmetic operations, such as implant customization to satisfy aesthetic goals. These examples demonstrate the adaptability and revolutionary power of 3D Print Medical Device Software across a wide range of healthcare disciplines.

3D Print Medical Device Software Market Dynamics

Driver

Technical advancements in a software solution are driving 3D print medical device software market.

Medical device development and healthcare applications are being reshaped by the advances. The use of sophisticated algorithms, machine learning, and artificial intelligence into 3D print medical device software improves the programmer’s ability to create precise and complicated anatomical models from medical imaging data. Improved data processing rates, model generation accuracy, and the capacity to manage complicated datasets all lead to more effective pre-surgical planning and personalised medical solutions.

The use of artificial intelligence (AI) and machine learning (ML) algorithms for 3D print medical device software is a main focus of technical progress. These algorithms automate critical 3D printing processes such as design optimisation, print route planning, and quality checking. As a result, production is increased, costs are reduced, and device quality is enhanced. Another noteworthy advancement is the introduction of cloud-based 3D print medical device software solutions. These revolutionary systems enable medical device developers to have worldwide access to and share 3D design files, printing settings, and quality control data. This collaborative capability speeds up the development of innovative medical equipment, allowing them to enter the market sooner.

Restraint

Material limitations in 3D printing can impede the 3D print medical device software market during the forecast period.

Despite the considerable advancements in 3D printing technology, the variety of materials still accessible is crucial. The existing range of 3D printing materials may not be easily accessible or practical for use in some medical applications that need particular material features, such as biocompatibility, sterilizability, or particular mechanical characteristics.

Material constraints might stymie market growth by restricting the development of specific medical devices or making it difficult to meet onerous regulatory standards. Ensuring that 3D-printed medical devices fulfil the requisite safety and effectiveness criteria frequently necessitates the use of specialised materials that might be difficult to obtain. As the need for various and specialised medical devices grows, overcoming material constraints becomes critical for the continued growth of the 3D print medical device software industry.

A critical barrier is the scarcity of biocompatible materials that meet the high regulatory criteria for implanted medical devices. The present biocompatible material selection suited for 3D printing is restricted, limiting the creation of particular medical devices such as long-term implants and tissue engineering scaffolds.

Furthermore, the mechanical qualities of particular 3D printed materials frequently fall short of the requirements for specific medical applications. Some materials, for example, may lack the strength and durability required for load-bearing implants such as orthopaedic implants. To address this constraint, continued research and development efforts to improve the mechanical characteristics of 3D printed materials are required.

Opportunities

Increasing adoption of 3D printing in healthcare is creating new opportunities for the 3D print medical device software market.

The growing use of 3D printing in healthcare is opening up several prospects for the 3D print medical device software industry. As this technology develops traction in the medical field, there is a growing demand for software solutions that simplify and optimize the 3D printing process. The potential of 3D printing to generate highly customised medical equipment with higher accuracy, enabling personalised treatment choices across numerous medical sectors such as dentistry, orthopedics, cardiology, and neurosurgery, is a fundamental driver of this spike in demand.

Pre-surgical planning and teaching have been altered by the use of 3D printing to create exact replicas of patient-specific anatomies. Surgeons may use realistic 3D-printed models to get a better knowledge of delicate anatomical features, improve procedural skills, and plan surgical procedures with unrivalled accuracy. This application has significantly improved surgical results and shortened operational hours. Furthermore, 3D printing is helping to accelerate the creation of patient-specific implants and prostheses. The technique enables the development of customised implants that exactly adapt to the anatomical peculiarities of particular patients. This level of customization not only improves implant comfort and functioning, but also promotes greater integration with the patient’s body.

3D Print Medical Device Software Market Trends

Artificial intelligence (AI) and machine learning (ML) algorithms are increasingly being integrated into 3D print medical device software. These sophisticated algorithms are critical in automating different elements of the 3D printing process, such as design optimisation, print route planning, and quality checking.
There is a surge in the development of cloud-based 3D print medical device software solutions. By allowing access to 3D design files, printing settings, and quality control data from anywhere in the globe, these systems enable seamless cooperation among medical practitioners, researchers, and device makers.
3D print medical device software is helping to advance pre-surgical planning. Surgeons may use precise 3D-printed models to improve their grasp of complicated anatomical systems, practice operations, and strategize treatments.
The use of 3D print medical device software is growing in the dentistry and orthopaedic areas. It is used to customize dental implants, crowns, bridges, and orthopaedic implants, resulting in better fit and functioning.
As healthcare infrastructure and technology usage increase, the 3D Print Medical Device Software Market is positioned for development in emerging regions. Software businesses are looking at ways to customise their products to the particular demands and legal requirements of these countries, which is bringing up new market potential.
The emphasis on developing patient-specific solutions remains a significant trend. 3D printing and accompanying software are rapidly being utilised to design medical devices, implants, and prostheses to particular patients’ physical characteristics and demands.

Competitive Landscape

The competitive landscape of the 3D print medical device software market was dynamic, with several prominent companies competing to provide innovative and advanced 3D print medical device software solutions.

3D Systems
Materialise
Siemens Healthineers
EOS
Stratasys
Autodesk
Arcam AB
Renishaw
HP
SLM Solutions Group AG
Concept Laser
DMG Mori
Nikon
Canon
Ricoh
EnvisionTEC
Voxeljet
Prodways Group
3T RPD Ltd.
FabRx Ltd.

Recent Developments:

September 27, 2023 –3D Systems announced a partnership with Klarity, a world leader in solutions for radiation therapy, to expand the distribution of its FDA-cleared VSP® Bolus solution. Klarity will offer VSP Bolus within its new line of high-quality patient-specific 3D printed products called Klarity Prints.

November 27, 2023: – Stratasys Ltd., a leader in polymer 3D printing and additive manufacturing solutions, announced it has partnered with Siemens Healthineers to carry out a landmark research project designed to develop new state-of-the-art solutions for the advancement of medical imaging phantoms for computed tomography (CT) imaging.

Regional Analysis

North America accounted for the largest market in the 3D print medical device software market. North America accounted for the 31 % market share of the global market value. North America has the biggest market share in the 3D print medical device software industry. This superiority is ascribed to modern healthcare infrastructure, intensive R&D, and broad adoption of cutting-edge technology. The presence of important industrial players, premier medical institutes, and favorable regulatory backing benefit the region, promoting the expansion of 3D print medical device software. The focus on personalised medicine in North America, combined with the growing need for patient-specific treatments, matches nicely with the capabilities of 3D printing technology and software. The United States, in particular, is a driving force in the industry, emphasizing technical developments and aggressive integration of 3D printing in medical applications.

The 3D print medical device software market in Europe is seeing rapid expansion, powered by modern healthcare systems, a strong emphasis on research and development, and favorable regulatory circumstances. Collaborations in the region between academic institutions, healthcare bodies, and industry players support innovation in 3D print medical device software. Europe’s dedication to personalised treatment meshes perfectly with the possibilities of 3D printing technology, significantly contributing to market expansion. The Asia-Pacific region is exhibiting rapid improvements in the 3D print medical device software market, owing to factors such as a growing population, higher healthcare spending, and greater awareness of modern medical technology. Leading nations such as China, Japan, and South Korea are pioneering the use of 3D printing in medical applications. The region’s significant use of digital healthcare solutions, along with a growing medical tourism business, drives demand for 3D print medical device software.

Target Audience for 3D Print Medical Device Software Market

Medical Device Manufacturers
Healthcare Institutions
Research Institutions
Regulatory Authorities
Investors and Venture Capitalists
Technology Providers
Healthcare Professionals
Government Health Departments
Educational Institutions

Import & Export Data for 3D print medical device software Market

Exactitude consultancy provides import and export data for the recent years. It also offers insights on production and consumption volume of the product. Understanding the import and export data is pivotal for any player in the 3D print medical device software market. This knowledge equips businesses with strategic advantages, such as:

Identifying emerging markets with untapped potential.
Adapting supply chain strategies to optimize cost-efficiency and market responsiveness.
Navigating competition by assessing major players’ trade dynamics.

Key insights

Trade volume trends: our report dissects import and export data spanning the last five years to reveal crucial trends and growth patterns within the global 3D print medical device software market. This data-driven exploration empowers readers with a deep understanding of the market’s trajectory.
Market players: gain insights into the leading players driving the 3D print medical device software trade. From established giants to emerging contenders, our analysis highlights the key contributors to the import and export landscape.
Geographical dynamics: delve into the geographical distribution of trade activities. Uncover which regions dominate exports and which ones hold the reins on imports, painting a comprehensive picture of the industry’s global footprint.
Product breakdown: by segmenting data based on 3D print medical device software types –– we provide a granular view of trade preferences and shifts, enabling businesses to align strategies with the evolving technological landscape.

Import and export data is crucial in reports as it offers insights into global market trends, identifies emerging opportunities, and informs supply chain management. By analyzing trade flows, businesses can make informed decisions, manage risks, and tailor strategies to changing demand. This data aids government in policy formulation and trade negotiations, while investors use it to assess market potential. Moreover, import and export data contributes to economic indicators, influences product innovation, and promotes transparency in international trade, making it an essential component for comprehensive and informed analyses.

Segments Covered in the 3D Print Medical Device Software Market Report

3D Print Medical Device Software Market by Type

Design Software
Analysis Software
Planning Software
Printing Software
Visualization Software

3D Print Medical Device Software Market by Function

Implants
Surgical Instruments
Prosthetics
Tissue Engineering
External Wearable Devices

3D Print Medical Device Software Market by Application

Medical Imaging
Dental
Surgery
Research
Physical Therapy
Aesthetic Medicine

3D Print Medical Device Software Market by End Use

Medical
Device Companies
Dental Laboratories
Hospitals and Clinics
Research Institutes

3D Print Medical Device Software 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 print medical device software market over the next 7 years?
Who are the major players in the 3D print medical device software market and what is their market share?
What are the End Use 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 print medical device software market, including factors such as interest rates, inflation, and exchange rates?
What is the expected impact of government policies and regulations on the 3D print medical device software market?
What is the current and forecasted size and growth rate of the global 3D print medical device software market?
What are the key drivers of growth in the 3D print medical device software 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 print medical device software market?
What are the technological advancements and innovations in the 3D print medical device software 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 print medical device software market and how are they addressing these challenges?
What are the opportunities for growth and expansion in the 3D print medical device software market?
What are the product offerings and specifications of leading players in the market?

INTRODUCTION
1. MARKET DEFINITION
2. MARKET SEGMENTATION
3. RESEARCH TIMELINES
4. ASSUMPTIONS AND LIMITATIONS
RESEARCH METHODOLOGY
1. DATA MINING
  1. SECONDARY RESEARCH
  2. PRIMARY RESEARCH
  3. SUBJECT-MATTER EXPERTS’ ADVICE
2. QUALITY CHECKS
  1. FINAL REVIEW
3. DATA TRIANGULATION
  1. BOTTOM-UP APPROACH
  2. TOP-DOWN APPROACH
  3. RESEARCH FLOW
4. DATA SOURCES
EXECUTIVE SUMMARY
MARKET OVERVIEW
1. GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET OUTLOOK
  1. MARKET DRIVERS
  2. MARKET RESTRAINTS
  3. MARKET OPPORTUNITIES
2. IMPACT OF COVID-19 ON 3D PRINT MEDICAL DEVICE SOFTWARE MARKET
3. PORTER’S FIVE FORCES MODEL
  1. THREAT FROM NEW ENTRANTS
  2. THREAT FROM SUBSTITUTES
  3. BARGAINING POWER OF SUPPLIERS
  4. BARGAINING POWER OF CUSTOMERS
  5. DEGREE OF COMPETITION
4. END USE VALUE CHAIN ANALYSIS
GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE, 2020-2030, (USD BILLION) (THOUSAND UNITS)
1. DESIGN SOFTWARE
2. ANALYSIS SOFTWARE
3. PLANNING SOFTWARE
4. PRINTING SOFTWARE
5. VISUALIZATION SOFTWARE
GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION, 2020-2030, (USD BILLION) (THOUSAND UNITS)
1. IMPLANTS
2. SURGICAL INSTRUMENTS
3. PROSTHETICS
4. TISSUE ENGINEERING
5. EXTERNAL WEARABLE DEVICES
GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION, 2020-2030, (USD BILLION) (THOUSAND UNITS)
1. MEDICAL IMAGING
2. DENTAL
3. SURGERY
4. RESEARCH
5. PHYSICAL THERAPY
6. AESTHETIC MEDICINE
GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE, 2020-2030, (USD BILLION) (THOUSAND UNITS)
1. MEDICAL
2. DEVICE COMPANIES
3. DENTAL LABORATORIES
4. HOSPITALS AND CLINICS
5. RESEARCH INSTITUTES
GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY REGION, 2020-2030, (USD BILLION) (THOUSAND UNITS)
1. NORTH AMERICA
  1. US
  2. CANADA
  3. MEXICO
2. SOUTH AMERICA
  1. BRAZIL
  2. ARGENTINA
  3. COLOMBIA
  4. REST OF SOUTH AMERICA
3. EUROPE
  1. GERMANY
  2. UK
  3. FRANCE
  4. ITALY
  5. SPAIN
  6. RUSSIA
  7. REST OF EUROPE
4. ASIA PACIFIC
  1. INDIA
  2. CHINA
  3. JAPAN
  4. SOUTH KOREA
  5. AUSTRALIA
  6. SOUTH-EAST ASIA
  7. REST OF ASIA PACIFIC
5. MIDDLE EAST AND AFRICA
  1. UAE
  2. SAUDI ARABIA
  3. SOUTH AFRICA
  4. REST OF MIDDLE EAST AND AFRICA
COMPANY PROFILES*

(BUSINESS OVERVIEW, COMPANY SNAPSHOT, PRODUCT OFFERED, RECENT DEVELOPMENTS)

3D SYSTEMS
MATERIALISE
SIEMENS HEALTHINEERS
EOS
STRATASYS
AUTODESK
ARCAM AB
RENISHAW
HP
SLM SOLUTIONS GROUP AG
CONCEPT LASER
DMG MORI
NIKON
CANON
RICOH
ENVISIONTEC
VOXELJET
PRODWAYS GROUP
3T RPD LTD.
FABRX LTD *THE COMPANY LIST IS INDICATIVE

LIST OF TABLES

TABLE 1 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 2 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 3 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 4 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 5 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 6 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 7 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 8 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 9 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY REGION (USD BILLION) 2020-2030

TABLE 10 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY REGION (THOUSAND UNITS) 2020-2030

TABLE 11 NORTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY COUNTRY (USD BILLION) 2020-2030

TABLE 12 NORTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030

TABLE 13 NORTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 14 NORTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 15 NORTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 16 NORTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 17 NORTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 18 NORTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 19 NORTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 20 NORTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 21 US 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 22 US 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 23 US 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 24 US 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 25 US 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 26 US 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 27 US 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 28 US 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 29 CANADA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 30 CANADA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 31 CANADA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 32 CANADA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 33 CANADA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 34 CANADA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 35 CANADA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 36 CANADA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 37 MEXICO 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 38 MEXICO 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 39 MEXICO 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 40 MEXICO 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 41 MEXICO 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 42 MEXICO 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 43 MEXICO 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 44 MEXICO 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 45 SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY COUNTRY (USD BILLION) 2020-2030

TABLE 46 SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030

TABLE 47 SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 48 SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 49 SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 50 SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 51 SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 52 SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 53 SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 54 SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 55 BRAZIL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 56 BRAZIL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 57 BRAZIL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 58 BRAZIL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 59 BRAZIL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 60 BRAZIL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 61 BRAZIL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 62 BRAZIL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 63 ARGENTINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 64 ARGENTINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 65 ARGENTINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 66 ARGENTINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 67 ARGENTINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 68 ARGENTINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 69 ARGENTINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 70 ARGENTINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 71 COLOMBIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 72 COLOMBIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 73 COLOMBIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 74 COLOMBIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 75 COLOMBIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 76 COLOMBIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 77 COLOMBIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 78 COLOMBIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 79 REST OF SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 80 REST OF SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 81 REST OF SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 82 REST OF SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 83 REST OF SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 84 REST OF SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 85 REST OF SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 86 REST OF SOUTH AMERICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 87 ASIA-PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY COUNTRY (USD BILLION) 2020-2030

TABLE 88 ASIA-PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030

TABLE 89 ASIA-PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 90 ASIA-PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 91 ASIA-PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 92 ASIA-PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 93 ASIA-PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 94 ASIA-PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 95 ASIA-PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 96 ASIA-PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 97 INDIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 98 INDIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 99 INDIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 100 INDIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 101 INDIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 102 INDIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 103 INDIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 104 INDIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 105 CHINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 106 CHINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 107 CHINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 108 CHINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 109 CHINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 110 CHINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 111 CHINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 112 CHINA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 113 JAPAN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 114 JAPAN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 115 JAPAN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 116 JAPAN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 117 JAPAN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 118 JAPAN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 119 JAPAN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 120 JAPAN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 121 SOUTH KOREA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 122 SOUTH KOREA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 123 SOUTH KOREA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 124 SOUTH KOREA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 125 SOUTH KOREA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 126 SOUTH KOREA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 127 SOUTH KOREA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 128 SOUTH KOREA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 129 AUSTRALIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 130 AUSTRALIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 131 AUSTRALIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 132 AUSTRALIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 133 AUSTRALIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 134 AUSTRALIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 135 AUSTRALIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 136 AUSTRALIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 137 SOUTH-EAST ASIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 138 SOUTH-EAST ASIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 139 SOUTH-EAST ASIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 140 SOUTH-EAST ASIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 141 SOUTH-EAST ASIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 142 SOUTH-EAST ASIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 143 SOUTH-EAST ASIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 144 SOUTH-EAST ASIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 145 REST OF ASIA PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 146 REST OF ASIA PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 147 REST OF ASIA PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 148 REST OF ASIA PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 149 REST OF ASIA PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 150 REST OF ASIA PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 151 REST OF ASIA PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 152 REST OF ASIA PACIFIC 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 153 EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY COUNTRY (USD BILLION) 2020-2030

TABLE 154 EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030

TABLE 155 EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 156 EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 157 EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 158 EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 159 EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 160 EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 161 EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 162 EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 163 GERMANY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 164 GERMANY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 165 GERMANY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 166 GERMANY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 167 GERMANY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 168 GERMANY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 169 GERMANY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 170 GERMANY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 171 UK 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 172 UK 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 173 UK 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 174 UK 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 175 UK 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 176 UK 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 177 UK 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 178 UK 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 179 FRANCE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 180 FRANCE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 181 FRANCE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 182 FRANCE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 183 FRANCE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 184 FRANCE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 185 FRANCE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 186 FRANCE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 187 ITALY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 188 ITALY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 189 ITALY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 190 ITALY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 191 ITALY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 192 ITALY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 193 ITALY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 194 ITALY 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 195 SPAIN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 196 SPAIN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 197 SPAIN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 198 SPAIN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 199 SPAIN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 200 SPAIN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 201 SPAIN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 202 SPAIN 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 203 RUSSIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 204 RUSSIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 205 RUSSIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 206 RUSSIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 207 RUSSIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 208 RUSSIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 209 RUSSIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 210 RUSSIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 211 REST OF EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 212 REST OF EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 213 REST OF EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 214 REST OF EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 215 REST OF EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 216 REST OF EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 217 REST OF EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 218 REST OF EUROPE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 219 MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY COUNTRY (USD BILLION) 2020-2030

TABLE 220 MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030

TABLE 221 MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 222 MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 223 MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 224 MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 225 MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 226 MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 227 MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 228 MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 229 UAE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 230 UAE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 231 UAE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 232 UAE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 233 UAE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 234 UAE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 235 UAE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 236 UAE 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 237 SAUDI ARABIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 238 SAUDI ARABIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 239 SAUDI ARABIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 240 SAUDI ARABIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 241 SAUDI ARABIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 242 SAUDI ARABIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 243 SAUDI ARABIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 244 SAUDI ARABIA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 245 SOUTH AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 246 SOUTH AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 247 SOUTH AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 248 SOUTH AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 249 SOUTH AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 250 SOUTH AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 251 SOUTH AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 252 SOUTH AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (THOUSAND UNITS) 2020-2030

TABLE 253 REST OF MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

TABLE 254 REST OF MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (THOUSAND UNITS) 2020-2030

TABLE 255 REST OF MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

TABLE 256 REST OF MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (THOUSAND UNITS) 2020-2030

TABLE 257 REST OF MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

TABLE 258 REST OF MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030

TABLE 259 REST OF MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

TABLE 260 REST OF MIDDLE EAST AND AFRICA 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (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 PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2020-2030

FIGURE 9 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2020-2030

FIGURE 10 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2020-2030

FIGURE 11 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2020-2030

FIGURE 12 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY REGION (USD BILLION) 2020-2030

FIGURE 13 PORTER’S FIVE FORCES MODEL

FIGURE 14 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY TYPE (USD BILLION) 2022

FIGURE 15 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY FUNCTION (USD BILLION) 2022

FIGURE 16 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY APPLICATION (USD BILLION) 2022

FIGURE 17 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY END USE (USD BILLION) 2022

FIGURE 18 GLOBAL 3D PRINT MEDICAL DEVICE SOFTWARE MARKET BY REGION (USD BILLION) 2022

FIGURE 19 MARKET SHARE ANALYSIS

FIGURE 20 3D SYSTEMS: COMPANY SNAPSHOT

FIGURE 21 MATERIALISE: COMPANY SNAPSHOT

FIGURE 22 SIEMENS HEALTHINEERS: COMPANY SNAPSHOT

FIGURE 23 EOS: COMPANY SNAPSHOT

FIGURE 24 STRATASYS: COMPANY SNAPSHOT

FIGURE 25 AUTODESK: COMPANY SNAPSHOT

FIGURE 26 ARCAM AB: COMPANY SNAPSHOT

FIGURE 27 RENISHAW: COMPANY SNAPSHOT

FIGURE 28 HP: COMPANY SNAPSHOT

FIGURE 29 SLM SOLUTIONS GROUP AG: COMPANY SNAPSHOT

FIGURE 30 CONCEPT LASER: COMPANY SNAPSHOT

FIGURE 31 DMG MORI: COMPANY SNAPSHOT

FIGURE 32 NIKON: COMPANY SNAPSHOT

FIGURE 33 CANON: COMPANY SNAPSHOT

FIGURE 34 RICOH: COMPANY SNAPSHOT

FIGURE 35 ENVISIONTEC: COMPANY SNAPSHOT

FIGURE 36 VOXELJET: COMPANY SNAPSHOT

FIGURE 37 PRODWAYS GROUP: COMPANY SNAPSHOT

FIGURE 38 3T RPD LTD.: COMPANY SNAPSHOT

FIGURE 39 FABRX LTD: COMPANY SNAPSHOT

• What is the market size for the 3D print medical device software market?

• Which region is dominating in the 3D print medical device software market?

North America accounted for the largest market in the 3D print medical device software market. North America accounted for 31 % market share of the global market value.

• Who are the major key players in the 3D print medical device software market?

3D Systems, Arcam AB, Renishaw, SLM Solutions Group AG, EOS GmbH, Materialise NV, Stratasys Ltd., Voxeljet AG, Prodways Group, Carpenter Technology Corporation, Honeywell International Inc., HP Inc., ExOne Inc., Markforged, Desktop Metal, Additive Industries, Concept Laser, Poligon Technologies, Farsoon Technologies, Meltio.

• What is the opportunity in the 3D print medical device software market?

The 3D print medical device software market presents significant opportunities driven by the increasing adoption of 3D printing in healthcare for creating personalized medical devices. The potential for advancements in software solutions, such as artificial intelligence and cloud-based platforms, further enhances the capabilities of 3D printing, providing avenues for growth and innovation in the market.

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REPORT OUTLOOK

SCOPE OF THE REPORT

3D Print Medical Device Software Market Overview

3D Print Medical Device Software Market Segmentation Analysis

3D Print Medical Device Software Market Dynamics

3D Print Medical Device Software Market Trends

Competitive Landscape

Regional Analysis

Target Audience for 3D Print Medical Device Software Market

Import & Export Data for 3D print medical device software Market

Key insights

Segments Covered in the 3D Print Medical Device Software Market Report

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