Global Healthcare 3D Printers, Applications, Products, Services & Ancillary Market Assessment & Forecast 2015-2019

Published on: 15-November-2015
Pages: 55
Region: Global
Format: PDF
Report Code: RP000023



Report Description:
This report provides market value with 2013 & 2014 as base values and forecast from 2015 to 2019 across multiple product segments, technology segments, applications and geographies detailed below. The global healthcare 3D printers, applications, products, services & ancillary market was valued at US$ 670.3 million in 2014 and expected to grow to US$ 2,126.2 million by 2019 at a CAGR of 25.2% from 2015 to 2019. The concept of 3D printing began with multi-axial robotic machining that gave the ability for manufacturing products from a single block of material such as metals, ceramics and plastics although plastics have conventionally been molded to reduce wastage. Modern 3D printing is also called additive manufacturing (AM) since the process includes building objects by placing materials layer by layer. There is a significant involvement of CAD/CAM software for modeling objects prior to being printed and in many cases also includes other ancillary hardware such as 3D imaging scanners. Modern 3D printing has been applied primarily to the automotive industry and aerospace industry. The technology is used particularly as a Rapid Prototyping technique to build an object for testing.

Market Drivers:
Highly reliable Just-In-Time manufacturing will allow revolutionary inventory control.
Greater support to innovators and technology developers across the world due to low cost of printers will drive the market growth.
3D Printing allows for customized and personalized products and services creating better treatment efficacy.
Governments across the world supporting research in 3D printing.
Lesser wastage of materials due to additive fabrication technique will lead to greater adoption in coming years.
Market for prosthetics dedicated to young children will spur growth of 3D printers.

Market Challenges:
Market is very nascent for setting reimbursement.
Prosthetics printing limited to simple designs.
Lack of training and exposure to technology.

Various Technologies Market Covered In This Report:
Electron Beam Melting
Laser Beam Melting/ Sintering
Photopolymerization
Droplet Deposition

Various Applications Market Covered In This Report:
Dental
Orthopedic
Orthotics
Prosthetics
Cochlear & Auditory
Woundcare & Organogenesis
Others (Stents, Lenses etc)

Various Industry Segments Market Covered In This Report:
Healthcare 3D Printing Devices
3D Printed Healthcare
Products Services & Ancillary Equipment

Geographical regions covered in this report:
North America
Europe
Asia-Pacific
Latin America
Middle-East
Africa

Key Players Covered In This Market:
3D Biotek
3D Gence
3D Systems
Advanced Biomatrix
Bespoke Innovations
BioBots
Carbon 3D
Conformis
Electro Optical Solutions (EOS) GmbH
EnvisionTEC
ExOne
FormLabs
LayerWise
Materialise NV
Nano3D Biosciences
Organovo
RegenHU
Robtec
Shapeways
Stratasys Inc
Zmorph
Zortax

Key Questions Answered In This Report:
What is the size of the global Healthcare 3D Printers market?
What is the size of the global 3D printed healthcare devices market?
What is the size of the global healthcare applications market in 3D printing?
What is the size of the North America/Europe/Asia-Pacific/Latin America/Middle-East/Africa healthcare 3d printers, applications, products, services & ancillary equipment market?
Who are the key vendors or players in this space?
What is the global market share of key vendors?
What are the factors driving this market?

Table of Content
Chapter 1 Preface
1.1 Research Scope
1.1.1 Market Segmentation
1.1.2 Postulations
1.2 Methodology of Research
1.2.1 Companies covered in this report

Chapter 2 Precis
2.1 Market Inferences

Chapter 3 Market Dynamics
3.1 Market Drivers
3.1.1 Highly reliable Just-In-Time manufacturing will allow revolutionary inventory control
3.1.2 Greater support to innovators and technology developers across the world due to low cost of printers will drive the market growth
3.1.3 3D Printing allows for customized and personalized products and services creating better treatment efficacy
3.1.4 Governments across the world supporting research in 3D printing
3.1.5 Lesser wastage of materials due to additive fabrication technique will lead to greater adoption in coming years
3.1.6 Market for prosthetics dedicated to young children will spur growth of 3D printers
3.2 Market Inhibitors
3.2.1 Market is very nascent for setting reimbursement
3.2.2 Prosthetics printing limited to simple designs
3.2.3 Lack of training and exposure to technology
3.3 Opportunities
3.3.1 Organ regeneration and bioprinting will be a separate niche with high returns in future
3.3.2 Materials crucial for most 3D technologies and emerging applications. Investment in 3D printing compatible materials R&D will help turn the market in favour

Chapter 4 Healthcare 3D Printing - Global Market Size Assessment, by Industry Segment, Forecast: 2015 - 2019
4.1 Introduction
4.2 Global Healthcare 3D Printers Market, US$ Mn (2013 - 2019)
4.3 Global Healthcare 3D Printed Products Market, US$ Mn (2013 - 2019)
4.4 Global Healthcare 3D Printing Services Market, US$ Mn (2013 - 2019)
4.5 Global Healthcare 3D Printing Ancillary Equipment Market, US$ Mn (2013 - 2019)

Chapter 5 Healthcare 3D Printing Applications Market ? Global Market Size Assessment, by Products, Forecast: 2015 - 2019
5.1 Introduction
5.2 Global Dental 3D Printed Products & Services Market, US$ Mn (2013 - 2019)
5.3 Global Orthopedic 3D Printed Products & Services Market, US$ Mn (2013 - 2019)
5.4 Global Orthotic 3D Printed Products & Services Market, US$ Mn (2013 - 2019)
5.5 Global Prosthetic 3D Printed Products & Services Market, US$ Mn (2013 - 2019)
5.6 Global Cochlear & Auditory 3D Printed Products & Services Market, US$ Mn (2013 - 2019)
5.7 Global WoundCare & Organogenesis 3D Printed Products & Services Market, US$ Mn (2013 - 2019)
5.8 Global Other 3D Printed Products & Services Market, US$ Mn (2013 - 2019)

Chapter 6 Healthcare 3D Printers - Global Market Size Assessment, by Technology, Forecast: 2015 - 2019
6.1 Introduction
6.2 Global Electron Beam Melting 3D Printers Market, US$ Mn (2013 - 2019)
6.3 Global Laser Beam Melting 3D Printers Market, US$ Mn (2013 - 2019)
6.4 Global Photopolymerization 3D Printers Market, US$ Mn (2013 - 2019)
6.4.1 Stereolithography
6.4.2 Digital Light Processing
6.4.3 Two Photon Polymerization
6.5 Global Droplet Deposition and Material Extrusion 3D Printers Market, US$ Mn (2013 - 2019)
6.5.1 Inkjet Printing or Thermal Inkjet Printing
6.5.2 Fused Deposition Modeling
6.5.3 Multi-Phase Jet Solidification

Chapter 7 Healthcare 3D Printers, Products, Services & Ancillary - Global Market Size Assessment, by Geography, Forecast: 2015 - 2019
7.1 Introduction
7.2 North America Healthcare 3D Printers, Products, Services & Ancillary Market, US$ Mn (2013 - 2019)
7.3 Europe Healthcare 3D Printers, Products, Services & Ancillary Market, US$ Mn (2013 - 2019)
7.4 Asia-Pacific Healthcare 3D Printers, Products, Services & Ancillary Market, US$ Mn (2013 - 2019)
7.5 Latin America Healthcare 3D Printers, Products, Services & Ancillary Market, US$ Mn (2013 - 2019)
7.6 Middle-East Healthcare 3D Printers, Products, Services & Ancillary Market, US$ Mn (2013 - 2019)
7.7 Africa Healthcare 3D Printers, Products, Services & Ancillary Market, US$ Mn (2013 - 2019)

Chapter 8 Key Players Analysis: Healthcare 3D Printers, Products and Services Market, 2014 (%)
8.1 Key Players Market Share: Healthcare 3D Printers, Products and Services Market, 2014 (%)
8.2 Global Healthcare 3D Printers, Applications, Products, Services & Ancillary Market: Recent Developments 2013-2015
8.2.1 Mergers and Acquisitions
8.2.2 Joint Ventures, Expansion and Collaborations
8.2.3 New Product Launches, Approvals and Recalls

Chapter 9 Epilogue

List of Figures

FIG. 1 Market Segmentation: Global Healthcare 3D Printers, Applications, Products & Services
FIG. 2 Research Methodology: Global Healthcare 3D Printers, Applications, Products & Services Market Assessment
FIG. 3 Global 3D Printing Market & Medical/Healthcare 3D Printing (Pie-of-Pie) Market Share, by Segment 2014 (% Share - US$ Million)
FIG. 4 Healthcare 3D Printing - Global Market Share, by Segment 2014 & 2019 (% Share - US$ Million)
FIG. 5 Global Healthcare 3D Printers Market, 2013 - 2019 (US$ Million)
FIG. 6 Global Healthcare 3D Printed Products Market, 2013 - 2019 (US$ Million)
FIG. 7 Global Healthcare 3D Printing Services Market, 2013 - 2019 (US$ Million)
FIG. 8 Global Healthcare 3D Printing Ancillary Market, 2013 - 2019 (US$ Million)
FIG. 9 Global Healthcare 3D Printed Products & Services Market Share, by Applications 2014 - 2019 (% Share US$ Millions)
FIG. 10 Global Healthcare 3D Printers Market Share, by Technology 2014 - 2019 (% Share US$ Millions)
FIG. 11 Global Electron Beam Melting 3D Printers Market, 2013 - 2019 (US$ Million)
FIG. 12 Global Laser Beam Melting 3D Printers Market, 2013 - 2019 (US$ Million)
FIG. 13 Key Players Market Share by Value: Healthcare 3D Printers, Products and Services Market, 2014 (%)

List of Tables

TABLE 1 List of companies covered in this report
TABLE 2 Global Healthcare 3D Printing Market, by Segment, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 3 Global Dental 3D Printed Products & Services Market, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 4 Global Orthopedic 3D Printed Products & Services Market, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 5 Global Orthotic 3D Printed Products & Services Market, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 6 Global Prosthetic 3D Printed Products & Services Market, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 7 Global Cochlear & Auditory 3D Printed Products & Services Market, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 8 Global WoundCare & Organogenesis 3D Printed Products & Services Market, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 9 Global Other 3D Printed Products & Services Market, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 10 Global Photopolymerization 3D Printers Market, by Sub-Types, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 11 Global Droplet Deposition 3D Printers Market, by Sub-Types, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 12 Global Healthcare 3D Printers, Applications, Products, Services & Ancillary Market, by Geography, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 13 North Healthcare 3D Printers, Products, Services & Ancillary Market, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 14 Europe Healthcare 3D Printers, Products, Services & Ancillary Market, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 15 Asia-Pacific Healthcare 3D Printers, Products, Services & Ancillary Market, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 16 Latin America Healthcare 3D Printers, Products, Services & Ancillary Market, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 17 Middle-East Healthcare 3D Printers, Products, Services & Ancillary Market, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)
TABLE 18 Africa Healthcare 3D Printers, Products, Services & Ancillary Market, 2013 - 2019 (US$ Mn) (CAGR: 2015 - 2019)

Excerpt:


The concept of 3D printing began with multi-axial robotic machining that gave the ability for manufacturing products from a single block of material such as metals, ceramics and plastics although plastics have conventionally been moulded to reduce wastage. Advanced 3D printing is also called additive manufacturing (AM) since the process includes building objects by placing materials layer by layer. There is a significant involvement of CAD/CAM software for modeling objects prior to being printed and in many cases also includes other ancillary hardware such as 3D imaging scanners. Modern 3D printing has been applied primarily to the automotive industry and aerospace industry. The technology is used particularly as a Rapid Prototyping technique to build an object for testing. This has significantly reduced the revenue put into research and materials used for development. 3D printing has also provided innovators and hobbyists across the world to apply the technique to other areas such as arts, architecture and consumer goods. Theoretically, people can very well print out spares of home automation devices and other consumer goods at home once they receive the designs of the spares by manufacturing companies. A revolution of free printing and open source movement is expected in this area which will change the landscape of manufacturing permanently in the next 10-20 years.
In recent years, the technology has been applied to the medical and healthcare field and was born from a simple fact that all human beings differ from each other very slightly in anatomy. These differences are caused by every environmental factors imaginable right from birth such as the way they walk, run, use muscles and development of skeletal structure. Along with this genes also play a major role in the differences of anatomy. Prior to the introduction of customized 3D printing of healthcare devices, all implants, and products were mass produced by companies through subtractive processes such as milling, grinding, polishing among others. This led to wastage of resources, additional energy and revenue had to be invested in recycling and disposing the waste. The mass produced devices were also known to not fit patients perfectly due to the minor anatomical differences thus leading to bad performance, patient discomfort and long duration of recuperation and in some cases repetitive corrective surgeries.
3D printing has been majorly applied to dental/orthodontic and cochlear fields due to higher need of customized products. The technology is also used in manufacturing cheap prosthetics and into the emerging field of bioprinting or biofabrication. Bioprinting is the 3D printing of tissue or cellular structure that gained prominence particularly after the works of companies such as Organovo and Anika along with private individuals and organizations such as Dr. Atala Director of the Wake Forest Institute for Regenerative Medicine. Currently a majority of cochlear implants and devices are made from 3D printing the shape of the patient in order to fit correctly. There are also a majority of other medical areas such as orthopedic implants, craniomaxillofacial implants, stents, lenses and orthotics that can potentially benefit the market.
This report discusses the growth of various 3D printing technologies and emerging trends in the market. It provides an in-depth perspective to the changes affecting the growth such as open source movement, and elucidates drivers and restraints of the market. North America remains the leader with a highest rate of new player entry in the market. Technology companies such as Hewlett Packard, Canon and Ricoh are now eyeing the market furtively to engage in what may be potentially over a US$ 100 billion market by 2030.

Request Sample Report
10685-B Hazelhurst Drive,
Suite 17411
Houston, TX 77043, U.S.
+1(832)-426-3701
info@sa-brc.com
support@sa-brc.com