Market Definition

The latest technical advancements in 3D Printing in Healthcare are a significant element contributing to the rapid development of the market in recent years. The medical sector is gaining momentum with the use of 3D printing technologies. By adopting 3D printing, the orthopaedics and dentistry industries are obtaining a competitive edge. The use of 3D-printed orthopaedic implants allows medical professionals to create implants that are better-fitting, endure for a longer period of time, and function better. Today's technology allows for the creation of a wide variety of prostheses, including spinal, hip, knee, and skull replacements. 

Increasingly hospitals are setting up 3D printing labs as a result of the increasing usage of electronic manufacturing technology and the expanded need for 3D printers that are as inexpensive as possible. The Rady Children's Hospital in San Diego, California, created the 3D Innovation Labs, where medical software developers 3D print hundreds of models each week, according to the institution. Dentists use 3D printing for a variety of tasks, from intraoral scanning to creating a workflow plan. Adjust Device allows use of 3D printing to produce the greatest number of moulds for restorative materials as possible.

The rising price associated with the creation and administration of these equipment, as well as the strict compliance requirements imposed by the authorities on the commercialization of medical devices created with the assistance of 3D printing, are functioning as restraints on the growth of the 3D printing medical devices market.

Report Scope

The global market report scope consists of a comprehensive study covering primary factors impacting the industry trends. The study includes analysis of regional and country-level market dynamics. The scope also consists of competitive overview offering company market shares coupled with company profiles for key revenue contributing companies. The report scope covers a detailed competitive outlook covering market shares and profiles of key participants in the market share.

Major Market Players

This report offers the major market player’s profiles, such as stratasys Ltd. (US & Israel), 3D Systems Corporation (US), GE Additive (US), Materialise NV (Belgium), Renishaw plc (UK), SLM Solutions Group AG (Germany), Desktop Metal, Inc. (US), Prodways Group (France), Carbon, Inc. (US), CELLINK (Sweden), Organovo Holdings, Inc. (US), EOS (Electro Optical Systems) GmbH (Germany), Biomedical Modeling, Inc. (US), Formlabs, Inc. (US), 3T Additive Manufacturing Ltd. (UK), DENTSPLY Sirona, Inc. (US), DWS Systems SRL (Italy), Roland DG (Japan), HP, Inc. (US), and regenHU (Switzerland) among others.

The 3D printing medical device Market report has been categorized as below

by Component

  • Equipment

    • 3D Printers

    • 3D Bioprinters

  • Materials

    • Plastics

      • Thermoplastics

      • Photopolymers

    • Metals and Metal Alloys

    • Biomaterials

    • Ceramics

    • Paper

    • Wax

    • Other Materials

  • Services & Software

By Application

  • Surgical Guides

    • Dental Guides

    • Craniomaxillofacial Guides

    • Orthopedic Guides

    • Spinal Guides

  • Surgical Instruments

    • Surgical Fasteners

    • Scalpels

    • Retractors

  • Standard Prosthetics & Implants

  • Custom Prosthetics & Implants

    • Orthopedic Implants

    • Dental Prosthetics & Implants

    • Craniomaxillofacial Implants

  • Tissue-engineered Products

    • Bone & Cartilage Scaffolds

    • Ligament & Tendon Scaffolds

  • Hearing Aids

  • Wearable Medical Devices

  • Other Applications

By Technology

  • Laser Beam Melting

    • Direct Metal Laser Sintering

    • Selective Laser Sintering

    • Selective Laser Melting

    • LaserCUSING

  • Photopolymerization

    • Digital Light Processing

    • Stereolithography

    • Two-photon Polymerization

    • PolyJet 3D Printing

  • Droplet Deposition/Extrusion-based Technologies

    • Fused Deposition Modeling

    • Multiphase Jet Solidification

    • Low-temperature Deposition Manufacturing

    • Microextrusion Bioprinting

  • Electron Beam Melting

  • Three-dimensional Printing/Adhesion Bonding/Binder Jetting

  • Other Technologies

By End User

  • Hospitals & Surgical Centers

  • Dental & Orthopedic Clinics

  • Academic Institutions & Research Laboratories

  • Pharma-Biotech & Medical Device Companies

  • Clinical Research Organizations

By regions:

  • North America
  • Europe
  • Asia Pacific
  • Rest of World

The years considered for the study are as follows:

  • Base year - 2020
  • Estimated year - 2021
  • Projected year – 2022
  • Forecast period - 2021 to 2027

Key Questions Addressed by the Report

  • New products/service competitors are exploring?
  • Key players in the 3D printing medical device Market and how extreme is the competition?
  • What are the future market trends that manufacturers are emphasizing on in the future updates?
  • For each segment, what are the crucial opportunities in the market?
  • What are the key growth strategies embraced by key market players in the market?
  • What are the key success strategies adopted by major competitors in the market?

Why Buy this Report:

  • Obtain comprehensive insights on the 3D printing medical device market trends
  • Note comprehensive analysis of the market status
  • Identifies the market opportunities and growth segments
  • Assessing business segments & product portfolios, and explain competitive dynamics
  • Provide strategy planning and industry dynamics to strengthen decision making

Table of content 

1. Global 3D printing medical device Market Introduction

1.1. Key Insights

1.2. Report Overview

1.3. Markets Covered

1.4. Stakeholders

2. Research Methodology

2.1. Research Scope

2.2. Market Research Process

2.3. Research Data Analysis

2.4. Market Size Estimation

3. Executive Summary 

4. Market Overview

4.1. Introduction

4.2. Market Drivers and Restraints

5. By Component

    5.1.  Key points 

    5.2.  Equipment

        5.2.1. 3D Printers

        5.2.2. 3D Bioprinters

    5.3. Materials

        5.3.1. Plastics

            5.3.1.1. Thermoplastics

            5.3.1.2. Photopolymers

         5.3.2. Metals and Metal Alloys

            5.3.2.1. Biomaterials

            5.3.2.2. Ceramics

        5.3.3. Paper

        5.3.4.Wax

        5.3.5. Other Materials

        5.3.6. Services & Software

6. By Application

6.1.  Key points 

6.2. Surgical Guides

    6.2.1. Dental Guides

    6.2.2. Craniomaxillofacial Guides

    6.2.3. Orthopedic Guides

    6.2.4. Spinal Guides

    6.3. Surgical Instruments

        6.3.1. Surgical Fasteners

        6.3.2. Scalpels

        6.3.3. Retractors

    6.4. Standard Prosthetics & Implants

    6.5. Custom Prosthetics & Implants

        6.5.1. Orthopedic Implants

        6.5.2. Dental Prosthetics & Implants

        6.5.3. Craniomaxillofacial Implants

    6.6. Tissue-engineered Products6

        6.6.1. Bone & Cartilage Scaffolds

        6.6.2. Ligament & Tendon Scaffolds

    6.7. Hearing Aids

    6.8. Wearable Medical Devices

    6.9. Other Applications

7. By Technology

    7.1.  Key points 

    7.2.  Laser Beam Melting

        7.2.1. Direct Metal Laser Sintering

        7.2.2. Selective Laser Sintering

        7.2.3. Selective Laser Melting

        7.2.4. LaserCUSING

    7.3. Photopolymerization

        7.3.1. Digital Light Processing

        7.3.2. Stereolithography

        7.3.3. Two-photon Polymerization

        7.3.4. PolyJet 3D Printing

    7.4. Droplet Deposition/Extrusion-based Technologies

        7.4.1. Fused Deposition Modeling

        7.4.2. Multiphase Jet Solidification

        7.4.3. Low-temperature Deposition Manufacturing

        7.4.4. Microextrusion Bioprinting

    7.5. Electron Beam Melting

    7.6. Three-dimensional Printing/Adhesion Bonding/Binder Jetting

    7.7. Other Technologies

8. By End User 

8.1.  Key points 

8.2.  Hospitals & Surgical Centers

8.3. Dental & Orthopedic Clinics

8.4. Academic Institutions & Research Laboratories

8.5. Pharma-Biotech & Medical Device Companies

8.6. Clinical Research Organizations

9. By regions:

9.1.  Key points 

9.2.  North America

9.3. Europe

9.4. Asia Pacific

9.5. Rest of World

10. Company Profile

(Profile contain company overview, products/services, financials & recent developments)

10.1. stratasys Ltd. (US & Israel) 

10.2. 3D Systems Corporation (US)

10.3. GE Additive (US)

10.4. Materialise NV (Belgium) 

10.5. Renishaw plc (UK)

10.6. SLM Solutions Group AG (Germany)

10.7. Desktop Metal, Inc. (US)

10.8. Prodways Group (France)

10.9. Carbon, Inc. (US)

10.10.CELLINK (Sweden)

10.11. Organovo Holdings, Inc. (US)

10.12. EOS (Electro Optical Systems) GmbH (Germany)

10.13. Biomedical Modeling, Inc. (US)

10.14. Formlabs, Inc. (US)

10.15. 3T Additive Manufacturing Ltd. (UK)

10.16. DENTSPLY Sirona, Inc. (US)

10.17. DWS Systems SRL (Italy) 

10.18. Roland DG (Japan)

10.19. HP, Inc. (US)

10.20. RegenHU (Switzerland) among others

The 3D printing medical device Market report has been categorized as below

by Component

  • Equipment

    • 3D Printers

    • 3D Bioprinters

  • Materials

    • Plastics

      • Thermoplastics

      • Photopolymers

    • Metals and Metal Alloys

    • Biomaterials

    • Ceramics

    • Paper

    • Wax

    • Other Materials

  • Services & Software

By Application

  • Surgical Guides

    • Dental Guides

    • Craniomaxillofacial Guides

    • Orthopedic Guides

    • Spinal Guides

  • Surgical Instruments

    • Surgical Fasteners

    • Scalpels

    • Retractors

  • Standard Prosthetics & Implants

  • Custom Prosthetics & Implants

    • Orthopedic Implants

    • Dental Prosthetics & Implants

    • Craniomaxillofacial Implants

  • Tissue-engineered Products

    • Bone & Cartilage Scaffolds

    • Ligament & Tendon Scaffolds

  • Hearing Aids

  • Wearable Medical Devices

  • Other Applications

By Technology

  • Laser Beam Melting

    • Direct Metal Laser Sintering

    • Selective Laser Sintering

    • Selective Laser Melting

    • LaserCUSING

  • Photopolymerization

    • Digital Light Processing

    • Stereolithography

    • Two-photon Polymerization

    • PolyJet 3D Printing

  • Droplet Deposition/Extrusion-based Technologies

    • Fused Deposition Modeling

    • Multiphase Jet Solidification

    • Low-temperature Deposition Manufacturing

    • Microextrusion Bioprinting

  • Electron Beam Melting

  • Three-dimensional Printing/Adhesion Bonding/Binder Jetting

  • Other Technologies

By End User

  • Hospitals & Surgical Centers

  • Dental & Orthopedic Clinics

  • Academic Institutions & Research Laboratories

  • Pharma-Biotech & Medical Device Companies

  • Clinical Research Organizations

By regions:

  • North America
  • Europe
  • Asia Pacific
  • Rest of World

Licence Option

  • Single User-
    2500 USD 1500 USD
  • Multiple User-
    5500 USD 3500 USD

Quality assurance

A testimonial for service in the form of BBB “A” Accreditation.

Your personal and confidential information is safe and secure.

  - Information security

© 2021 Whipsmart. All Rights Reserved.

Terms of use| Site Map