Technologies Enabling Super-resolution Biomedical Imaging

Technologies Enabling Super-resolution Biomedical Imaging

Redrawing the Boundaries of Medical Imaging

RELEASE DATE
29-Sep-2017
REGION
Global
Research Code: D7B5-01-00-00-00
SKU: HC02899-GL-TR_20876
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Description

TechVision's latest research service from the medical imaging technology cluster highlights the emerging trends and innovations in super-resolution biomedical imaging. Over the last two decades, powered by rapid advances in electronics and sensors, information technology and telecommunications, microscopes have evolved from moderately powerful, stand-alone imaging devices into powerful, networked and highly-intelligent diagnostic systems.

A term that has evolved over the last decade is super-resolution. Super-resolution imaging techniques that are employed to improve the resolution of imaging systems, in an attempt to break the diffraction limit – a phenomenon that determines the limitations of optical imaging systems.

This research service sheds light on the super-resolution imaging technology landscape, key business and technology considerations that are aiding and hampering market adoption, areas that present opportunities for growth and research activity in this area.

Table of Contents

1.1 Scope of Research

1.2 Research Methodology

1.2 Research Methodology (continued)

1.3 The Evolution of Microscopes to Nanoscopes Also Brings About Smarter Imaging Systems

2.1 The Growing Importance of Super-resolution Imaging

2.2 The Need for Super-resolution is Necessitated by the Phenomenon of Diffraction Limit

2.3 The Growth of Nanomedicine and Basic Science Drives the Move to Super-resolution Microscopes

2.4 The Importance of 3D Autofocus Systems, Image Processing in Biomedical Imaging

2.5 Super-resolution is Achieved through Instrumentation Improvements and Alternate Approaches to Image Acquisition

2.6 Spotlight on Super-resolution Microscopy

3.1 Image Sensors Form the Foundation of Medical Imaging

3.2 Machine Vision Brings About Automation in Image Analysis

3.3 Artificial Intelligence Enables Digital Pathology

3.4 The Need for Image Stability Necessitates 3D Autofocus Systems

3.5 Super-resolution is an Urgent Requirement for Pharmaceutical and Life Science Research

4.1 Oxford Nanoimaging – Nanoimaging to Study Live Sub-cellular Interactions

4.2 Sony-Olympus Joint Venture Results in a High-resolution Surgical Microscopes

4.3 Ultra-high Definition Imaging System for Superior Endoscopic Viewing

4.4 Transoral Robotic-assisted High-resolution Microendoscopic Imaging

5.1 Market Impact of Growth Drivers

5.2 The Explosive Growth of Nanotechnology, Demand from Asia-Pacific are Key Drivers of the Market

5.3 Pipeline of Innovations in the Image Sensor and Advanced Analytics Markets Ensure Continuous Product Enhancements

5.4 Market Impact of Growth Challenges

5.5 Competition from Non-optical Imaging Solutions, Limited Funding Opportunities are Key Market Challenges

5.6 Need for Skilled Technicians, Complexities in Sample Handling are Key Technical Challenges

5.7 Private Investment Has Been Leading in Innovations in High-resolution Imaging

5.8 Annual Public Funding in the US Averages Just $50 Million

5.9 Analysis of Recent NIH-funded Projects

5.9 Analysis of Recent NIH-funded Projects (continued)

5.10 Strong Venture Funding Shows the Cross-industry Importance of Super-resolution Imaging

6.1 APAC in Strong Growth Phase as the US and Europe Reach Maturity

6.2 Clinical Imaging is Dominated by Trends such as Miniaturization, Portability, and Connectivity

6.3 Opportunities Abound in Pharma and Regenerative Medicine Research for Cell Quantification and Imaging

6.4 Super-resolution Imaging Aligns Well with Emerging Megatrends of Miniaturization and Technology Convergence

7.1 Technologies Available for Licensing

7.1 Technologies Available for Licensing (continued)

7.2 Super-resolution Imaging – Regional IP Analysis

7.3 Super-resolution Imaging – By Top Assignees

7.4 Key Patents for you to Check

7.4 Key Patents for you to Check (continued)

7.4 Key Patents for you to Check (continued)

7.4 Key Patents for you to Check (continued)

8.1 Database of Key Industry Participants

8.2 Literature References

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Related Research
TechVision's latest research service from the medical imaging technology cluster highlights the emerging trends and innovations in super-resolution biomedical imaging. Over the last two decades, powered by rapid advances in electronics and sensors, information technology and telecommunications, microscopes have evolved from moderately powerful, stand-alone imaging devices into powerful, networked and highly-intelligent diagnostic systems. A term that has evolved over the last decade is super-resolution. Super-resolution imaging techniques that are employed to improve the resolution of imaging systems, in an attempt to break the diffraction limit – a phenomenon that determines the limitations of optical imaging systems. This research service sheds light on the super-resolution imaging technology landscape, key business and technology considerations that are aiding and hampering market adoption, areas that present opportunities for growth and research activity in this area.
More Information
No Index No
Podcast No
Author Bhargav Rajan
Industries Healthcare
WIP Number D7B5-01-00-00-00
Is Prebook No