3D Printed Medical Devices Market, By Application Type (Orthopedic Implants, Dental Implants, Cranio-maxillofacial Implants, Internal and External Prostheses), By Technology (Stereo Lithography (SLA) – Liquid Based 3D Printing, Selective Layer Sintering (SLS) – Powder Based 3D Printing, Digital Light Processing(DLP), Fused Deposition Modeling (FDM): Plastic Filament Extrusion Based, PolyJet / InkJet 3D Printing, Electronic Beam Melting (EBM)), By Material (Plastics (Thermoplastics, Photopolymers), Biomaterial Inks(Polymers, Ceramics, Hydrogels), Metals and Alloys), and By Region (North America, Canada Latin America, Europe, Asia Pacific, Middle East and Africa) - Size, Share, Outlook, and Opportunity Analysis, 2022 - 2028
3D printing technology is used to manufacture medical devices in the healthcare sector such as orthopedic and cranial implants, surgical instruments, dental restorations such as crowns, and external prosthetics. The manufacturing process constitutes of multiple steps depending upon the type of medical devices required. 3 D printed medical devices can be customized depending on patient requirements. Increasing prevalence of periodontitis, diabetes-related gangrene, osteoarthritis, bone-dental diseases, and peripheral vascular diseases in developed and developing economies is expected to boost growth of the global 3D printed medical devices market.
Key features of the study:
This report provides in-depth analysis of the global 3D printed Medical Devices and provides market size (US$ Million) and compound annual growth rate (CAGR %) for the forecast period (2022-2028), considering 2021, as the base year
It elucidates potential revenue opportunity across different segments and explains attractive investment proposition matrix for this market
This study also provides key insights about market drivers, restraints, opportunities, new product launches or approval, regional outlook, and competitive strategy adopted by leading players
It profiles leading players in the global 3D printed Medical Devices based on the following parameters – company overview, financial performance, product portfolio, geographical presence, distribution strategies, key developments, and strategies, and future plans
Key companies covered as a part of this study include 3D Systems, Inc., Arcam AB, Stratasys Ltd., FabRx Ltd., EOS GmbH Electro Optical Systems, EnvisionTEC, Cyfuse Biomedical K.K., Bio3D Technologies, PrinterPrezz, Carima, Nexxt Spine, and Aurora Labs.
Insights from this report would allow marketers and the management authorities of companies to make informed decision regarding future product launches, technology up-gradation, market expansion, and marketing tactics
The global 3D printed Medical Devices report caters to various stakeholders in this industry including investors, suppliers, product manufacturers, distributors, new entrants, and financial analysts.
Stakeholders would have ease in decision-making through various strategy matrices used in analyzing the market.
Detailed Segmentation
3D Printed Medical Devices Market, By Application Type:
Orthopedic Implants
Dental Implants
Cranio-maxillofacial Implants
Internal and External Prostheses
3D Printed Medical Devices Market, By Technology:
Stereo Lithography (SLA) – Liquid Based 3D Printing
Selective Layer Sintering (SLS) – Powder Based 3D Printing
Digital Light Processing(DLP)
Fused Deposition Modeling (FDM): Plastic Filament Extrusion Based
PolyJet / InkJet 3D Printing
Electronic Beam Melting (EBM)
3D Printed Medical Devices Market, By Material:
Plastics
Thermoplastics
Photopolymers
Biomaterial Inks
Polymers
Ceramics
Hydrogels
Metals and Alloys
3D Printed Medical Devices Market, By End User:
Hospitals
Ambulatory Surgical Centers
Diagnostic Centers
3D Printed Medical Devices Market, By Region:
North America
By Application Type:
Orthopedic Implants
Dental Implants
Cranio-maxillofacial Implants
Internal and External Prostheses
By Technology
Stereolithography (SLA) – Liquid Based 3D Printing
Selective Layer Sintering (SLS) – Powder Based 3D Printing
Digital Light Processing(DLP)
Fused Deposition Modeling (FDM): Plastic Filament Extrusion Based
PolyJet / InkJet 3D Printing
Electronic Beam Melting (EBM)
By Material
Plastics
Thermoplastics
Photopolymers
Biomaterial Inks
Polymers
Ceramics
Hydrogels
Metals and Alloys
By End User
Hospitals
Ambulatory Surgical Centers
Diagnostic Centers
By Country:
U.S.
Canada
Latin America
By Application Type:
Orthopedic Implants
Dental Implants
Cranio-maxillofacial Implants
Internal and External Prostheses
By Technology
Stereolithography (SLA) – Liquid Based 3D Printing
Selective Layer Sintering (SLS) – Powder Based 3D Printing
Digital Light Processing(DLP)
Fused Deposition Modeling (FDM): Plastic Filament Extrusion Based
PolyJet / InkJet 3D Printing
Electronic Beam Melting (EBM)
By Material
Plastics
Thermoplastics
Photopolymers
Biomaterial Inks
Polymers
Ceramics
Hydrogels
Metals and Alloys
By End User
Hospitals
Ambulatory Surgical Centers
Diagnostic Centers
By Country:
Brazil
Mexico
Argentina
Rest of Latin America
Europe
By Application Type:
Orthopedic Implants
Dental Implants
Cranio-maxillofacial Implants
Internal and External Prostheses
By Technology
Stereolithography (SLA) – Liquid Based 3D Printing
Selective Layer Sintering (SLS) – Powder Based 3D Printing
Digital Light Processing(DLP)
Fused Deposition Modeling (FDM): Plastic Filament Extrusion Based
PolyJet / InkJet 3D Printing
Electronic Beam Melting (EBM)
By Material
Plastics
Thermoplastics
Photopolymers
Biomaterial Inks
Polymers
Ceramics
Hydrogels
Metals and Alloys
By End User
Hospitals
Ambulatory Surgical Centers
Diagnostic Centers
By Country:
Germany
U.K.
France
Italy
Spain
Russia
Rest of Europe
Asia Pacific
By Application Type:
Orthopedic Implants
Dental Implants
Cranio-maxillofacial Implants
Internal and External Prostheses
By Technology
Stereolithography (SLA) – Liquid Based 3D Printing
Selective Layer Sintering (SLS) – Powder Based 3D Printing
Digital Light Processing(DLP)
Fused Deposition Modeling (FDM): Plastic Filament Extrusion Based
PolyJet / InkJet 3D Printing
Electronic Beam Melting (EBM)
By Material
Plastics
Thermoplastics
Photopolymers
Biomaterial Inks
Polymers
Ceramics
Hydrogels
Metals and Alloys
By End User
Hospitals
Ambulatory Surgical Centers
Diagnostic Centers
By Country:
China
India
Japan
Australia
South Korea
ASEAN
Rest of Asia Pacific
Middle East
By Application Type:
Orthopedic Implants
Dental Implants
Cranio-maxillofacial Implants
Internal and External Prostheses
By Technology
Stereolithography (SLA) – Liquid Based 3D Printing
Selective Layer Sintering (SLS) – Powder Based 3D Printing
Digital Light Processing(DLP)
Fused Deposition Modeling (FDM): Plastic Filament Extrusion Based
PolyJet / InkJet 3D Printing
Electronic Beam Melting (EBM)
By Material
Plastics
Thermoplastics
Photopolymers
Biomaterial Inks
Polymers
Ceramics
Hydrogels
Metals and Alloys
By End User
Hospitals
Ambulatory Surgical Centers
Diagnostic Centers
By Country:
GCC
Israel
Rest of Middle East
Africa
By Application Type:
Orthopedic Implants
Dental Implants
Cranio-maxillofacial Implants
Internal and External Prostheses
By Technology
Stereolithography (SLA) – Liquid Based 3D Printing
Selective Layer Sintering (SLS) – Powder Based 3D Printing
Digital Light Processing(DLP)
Fused Deposition Modeling (FDM): Plastic Filament Extrusion Based
PolyJet / InkJet 3D Printing
Electronic Beam Melting (EBM)
By Material
Plastics
Thermoplastics
Photopolymers
Biomaterial Inks
Polymers
Ceramics
Hydrogels
Metals and Alloys
By End User
Hospitals
Ambulatory Surgical Centers
Diagnostic Centers
By Country:
South Africa
Central Africa
North Africa
Company Profiles
3D Systems, Inc.*
Company Overview
Product Portfolio
Key Highlights
Financial Overview
Strategies
Arcam AB
Stratasys Ltd.
FabRx Ltd.
EOS GmbH Electro Optical Systems
EnvisionTEC
Cyfuse Biomedical K.K.
Bio3D Technologies
PrinterPrezz
Carima
Nexxt Spine
Aurora Labs
“*” marked represents similar segmentation in other categories in the respective section.
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