3D printing Report

3D Bioprinting 2017-2027: Technologies, Markets, Forecasts

Opportunities in cosmetics and consumer product testing, drug development and regenerative medicine

Brand new for May 2017
The market for 3D bioprinting will reach $1.8 billion by 2027
 
Interest in 3D bioprinting has been gaining momentum in recent years, both in the academic and commercial settings. Between 2014 and 2015, the market welcomed numerous 3D bioprinting companies, and new start-ups, spin-outs, and subsidiaries are continuing to emerge. Though investment in the field has been driven on by the futuristic goal of providing solutions for regenerative by way of fabricating organs for transplant, more realistic applications in product development and testing have shown great promise and are already being marketed. Over 2016, several 3D bioprinting companies saw a doubling of revenue, and comparable results are anticipated for the next few years. Given these market trends, IDTechEx forecasts that the global market for 3D bioprinting will reach a value of $1.8 billion by the year 2027.
 
 
Source: IDTechEx
 
Technology and Applications
3D bioprinting can be defined in a variety of ways, and each definition includes and excludes large swathes of key biotechnology markets. In this report, IDTechEx has defined 3D bioprinting as the deposition of living cells in a spatially controlled manner in the absence of any pre-existing scaffold and in more than a single layer. Under this definition, 3D bioprinters are currently based on four main printhead technologies:
 
  • Inkjet
  • Extrusion
  • Laser-induced forward transfer
  • Microvalve
 
This report profiles each technology and its subtypes, and provides key specifications, vendors, and SWOT analyses. This report also introduces and discusses emerging 3D bioprinting technologies of electrospinning, optical bioprinting, label-less magnetic levitation, and acoustic levitation. Technologies and considerations relevant to the 3D bioprinting process, such as software, bioink (including cell selection, growth factors, and scaffold materials), and post-printing maturation are also discussed.
 
Current and future applications for 3D bioprinting discussed in this report include:
 
  • Testing of cosmetics and other consumer goods
  • Drug screening
  • Personalised medicine
  • Regenerative medicine
  • Cell-based biosensors
  • Food and other animal products
  • Education
  • Academic research
  • Bionics
 
Regenerative Medicine
Special attention is paid to regenerative medicine in this report, as not only does it have the potential to be the largest application for 3D bioprinting in the future, but also one with the highest impact. This report analyses how 3D bioprinting can be applied to regenerative medicine, and focuses on the following tissue types:
 
  • Bone and cartilage
  • Skin
  • Dental
  • Vasculature
  • Complex organs
 
Additionally, discussion of current progress in bringing 3D bioprinted tissues to the clinic is provided, as well future hurdles to be faced. A roadmap of 3D bioprinting in regenerative medicine to the year 2050 is provided.
 
Forecasts
This report forecasts the overall 3D bioprinting market to 2027, with in depth discussion of key trends in the short term (2017 - 2021), and those expected in the long term (2022 - 2027). Market forecasts to 2027 are also provided for the 3D bioprinter market segmented by price point, and the 3D bioprinted tissue market segmented by tissue application.
Analyst access from IDTechEx
All report purchases include up to 30 minutes telephone time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.
Further information
If you have any questions about this report, please do not hesitate to contact our report team at research@IDTechEx.com or call one of our sales managers:
 
Americas (US): +1 617 577 7890
Europe (UK): +44 (0)1223 812300
Korea: +82 31 263 7890
Rest of Asia (Japan): +81 90 1704 1184

Order now

Table of Contents
1.EXECUTIVE SUMMARY
1.1.Overview
1.2.3D Bioprinting Players
1.3.High Profile Partnerships
1.4.Successful Animal Tests
1.5.3D Bioprinting Market Forecast 2017 - 2027
1.6.3D Bioprinter Market Forecast 2017 - 2027
1.7.3D Bioprinted Tissue Market Forecast 2017 - 2027
1.8.Key Drivers
1.9.Key Challenges
2.INTRODUCTION
2.1.Report Scope / 3D Bioprinting Definition
2.2.3D Bioprinting Process
2.2.1.3D Bioprinting Process: Discussion
2.3.3D Cell Culture Advantages
2.4.3D Bioprinting Advantages
2.5.Key Driver: Regenerative Medicine
2.5.1.Key Driver: Unmet Need in Organs for Transplant
2.6.Key Driver: Product Testing in Medicine
2.6.1.Key Driver: Avoiding Costly Drug Trial Failures
2.7.Key Driver: Product Testing in Consumer Products
2.8.Major Bioprinting Firsts
2.9.3D Bioprinting in 2017
2.10.Key Trends: 3D Bioprinters
2.11.Key Trends: Bioprinted Tissues
2.12.Key Competing Technologies
2.13.Current Technical Challenges
2.14.Current Biological Challenges
2.15.Regulatory Hurdles
2.16.3D Bioprinting SWOT Analysis
3.3D BIOPRINTER TECHNOLOGIES
3.1.From 3D Printing to 3D Bioprinting
3.2.3D Bioprinting Technologies
3.2.1.Comparison of Key Specifications
3.3.3D Bioprinting Technology Comparison
3.4.Inkjet: Introduction
3.4.1.Inkjet: Key Specifications
3.4.2.Inkjet: Thermal
3.4.3.Inkjet: Piezoelectric
3.4.4.Inkjet: Advantages
3.4.5.Inkjet: Challenges
3.4.6.Inkjet: SWOT Analysis
3.5.Extrusion: Introduction
3.5.1.Extrusion: Key Specifications
3.5.2.Extrusion: Pneumatic
3.5.3.Extrusion: Mechanical
3.5.4.Extrusion: Advantages
3.5.5.Extrusion: Challenges
3.5.6.Extrusion: SWOT Analysis
3.6.Laser: Introduction
3.6.1.LIFT: Key Specifications
3.6.2.LIFT: Laser-Induced Forward Transfer
3.6.3.LIFT: Advantages
3.6.4.LIFT: Challenges
3.6.5.LIFT: SWOT Analysis
3.7.Microvalve: Introduction
3.7.1.Microvalve: Key Specifications
3.7.2.Microvalve: Solenoid
3.7.3.Microvalve: Advantages
3.7.4.Microvalve: Challenges
3.7.5.Microvalve: SWOT Analysis
3.8.Emerging Technology
3.8.1.Emerging Technology: Electrospinning
3.8.2.Emerging Technology: Microscale Continuous Optical Bioprinting (µCOB)
3.8.3.Emerging Technology: Paramagnetic and Acoustic
3.9.Industry-wide Technical Challenges
3.10.The Ideal 3D Bioprinter
3.11.Future Technological Directions
4.RELATED TECHNOLOGIES
4.1.Related Technologies
4.2.3D Bioprinting Software
4.3.Bioink Preparation
4.4.Cell Selection
4.4.1.Cell Selection: Regenerative Medicine
4.5.Growth Factors and Other Additives
4.6.Scaffold Materials
4.7.The Ideal Scaffold Material
4.8.Cell Spheroid Printing
4.9.Maturation
5.APPLICATIONS
5.1.Introduction
5.2.Testing of Cosmetics and Other Consumer Goods
5.3.Drug Screening
5.3.1.Drug Screening: Drug Development Process
5.3.2.Drug Screening: Benefits of 3D Bioprinting
5.4.Personalised Medicine
5.5.Regenerative Medicine
5.5.1.Regenerative Medicine: Tissue Roadmap
5.5.2.Regenerative Medicine: Bone and cartilage
5.5.3.Regenerative Medicine: Skin
5.5.4.Regenerative Medicine: Dental
5.5.5.Regenerative Medicine: Vasculature
5.5.6.Regenerative Medicine: Complex Organs
5.6.Cell-Based Biosensors
5.7.Food and Other Animal Products
5.8.Education
5.9.Academic Research
5.10.Bionics
6.MARKETS AND FORECASTS
6.1.Introduction
6.2.Growing 3D Bioprinting Market
6.3.Market Barriers
6.4.Key Losers
6.5.Forecasts
6.6.Overall 3D Bioprinting Market Forecast 2017 - 2027
6.6.1.Overall 3D Bioprinting Market Forecast: Short and Long Term
6.7.3D Bioprinting Value Chain
6.7.1.3D Bioprinting Value Chain: Discussion
6.8.3D Bioprinter Manufacturers
6.8.1.3D Bioprinters by Cost and Technology
6.9.3D Bioprinter Market Forecast 2017 - 2027
6.9.1.3D Bioprinter Market Forecast: Short Term
6.9.2.3D Bioprinter Market Forecast: Long Term
6.10.3D Bioprinting Service Bureaus
6.11.3D Bioprinted Tissue Forecast 2017 - 2027
6.11.1.3D Bioprinted Tissue Forecast: Consumer Products
6.11.2.3D Bioprinted Tissue Forecast: Pharmaceuticals
6.11.3.3D Bioprinted Tissue Forecast: Others
7.REGENERATIVE MEDICINE
7.1.Introduction
7.2.Regulatory Hurdles
7.3.Regenerative Medicine Advanced Therapy Designation
7.4.Ethics
7.5.Scams and Schemes
7.6.From Lab to Clinic
7.7.3D Bioprinting Roadmap to 2050
8.APPENDIX
8.1.List of 3D Bioprinting Companies
8.2.List of Company Profiles
8.2.1.3D Bioprinting Solutions/Vivax Bio
8.2.2.3Dynamic Systems Ltd
8.2.3.Aether Inc.
8.2.4.Aspect Biosystems
8.2.5.Biobots
8.2.6.BioDan Group
8.2.7.Cellenion SASU
8.2.8.Cellink
8.2.9.Digilab Inc.
8.2.10.GeSIM
8.2.11.Microdrop Technologies GmbH
8.2.12.MicroFab
8.2.13.Organovo Holdings, Inc.
8.2.14.PeptiGelDesign Ltd
8.2.15.Poietis
8.2.16.Regemat 3D
8.2.17.SE3D
8.2.18.Sichuan Revotek Co. Ltd.

Ordering Information

 
 
-Electronic (1-5 users)$5495.00
-Electronic (6-10 users)$8225.00
-Electronic and 1 Hardcopy (1-5 users)$5795.00
-Electronic and 1 Hardcopy (6-10 users)$8525.00
Click here to enquire about additional licenses.
If you are a reseller/distributor please contact us before ordering.
お問合せ、見積および請求書が必要な方はm.murakoshi@idtechex.com までご連絡ください。

Order now

Report Statistics

-Slides184
-Companies18
-Forecasts to2027
-Last updateMay 2017
 

Downloads

pdf Document Sample pages
 
print Print Page
email Forward Page
-  Library Recommendation
 

Contact Us

 
Americas (US): +1 617 577 7890
Europe (UK): +44 (0)1223 812300
Korea: +82 31 263 7890
Rest of Asia (Japan): +81 90 1704 1184
 

Related

 

Conferences