Table of Content

Table of Contents

1.0 Executive Summary
1.1 Scope of the Research
1.2 Research Methodology
1.3 Research Methodology (continued)

2.0 Industry Overview
2.1 Trends in the Proportional Use of Robotic Surgeries
2.2 Enhanced Performance and Reduced Procedure-related Complications have Enabled Greater Use of Surgical Robotic Systems
2.3 Enhanced Utility of Next-generation Surgical Robotic Systems Contributing to its Greater Adoption

3.0 Technology Snapshot
3.1 Technology Segmentation Based on Type of Next-generation Surgical Robotic Systems
3.2 Single-port Robotic Surgery Systems
3.2.1 Robotic Surgical System Designed for Quick Operating Room Setup
3.2.2 Robotic System for Providing Enhanced Precision and Control during Lateral Oropharyngectomy and Urology Procedures
3.2.3 Compact and Highly Dexterous Robotic Surgical System for Precise Colon Resection Surgery
3.2.4 Growth Opportunities: Smaller Profile, Improved Operating Room Efficiency and Enhanced Anatomical Access to Spur Adoption of Single-port Systems
3.3 Robotic Natural Orifice Transluminal Endoscopic Surgery Systems
3.3.1 Robotic Surgical System for Accurate Detection and Treatment of Lung Tumors
3.3.2 Robotic Surgical System for Enabling Faster Removal of Gastrointestinal Tumors
3.3.3 Robotic Surgical System for Accessing Distant Anatomical Regions
3.3.4 Growth Opportunities: Ergonomic Design, Enhanced Anatomical Accessibility and Short Learning Curve to Improve Use of these Platforms
3.4 Multi-port Robotic Surgery Systems
3.4.1 Robotic Surgical System for High-precision Vitreoretinal Procedures
3.4.2 Portable Robotic Surgical System that Improves Hospitals’ Efficiency and Patient Throughput
3.4.3.Robotic Surgical System with Advanced Controls for Improving Patient and Surgeon Experience
3.4.4 Growth Opportunities: Reducing Procedural Complications, Lower Cost of Instrumentation and Easier Integration with Existing Operating Room Surgical Systems to Drive Adoption of these Platforms

4.0 Funding and Impact Assessment
4.1 Assessment of Government Funding for Next-generation Surgical Robotic Systems
4.2 Analysis of NIH Funding for Next-generation Surgical Robotic Systems
4.3 National Heart, Lung, and Blood Institute Leads the Funding for Next-generation Surgical Robotic Systems Technology Research
4.4 Titan Medical Collaborates with Teleflex for Improving Patient Outcomes
4.5 Medtronic and KARL STORZ Partner to Enhance Product Capabilities
4.6 Johnson & Johnson Acquires Controlling Stake in Verb Surgical to Strengthen Surgical Portfolio
4.7 J&J acquires Orthotaxy for Expanding Application for a Range of Orthopedic Surgery Procedures
4.8 Application Analysis: Increasing Application Areas offer Lucrative Growth Opportunities for Companies Developing Next-generation Surgical Robotic Systems
4.9 Assessment of Adoption of Next-generation Surgical Robots Globally
4.10 China is the Innovation Hotbed for Next-generation Surgical Robotic Systems
4.11 Supportive Government Policies to Boost Innovation for Next-generation Surgical Robots in China
4.12 Patent Scenario-Key Patents for Next-generation Surgical Robots

5.0 Analyst Insights
5.1 Improving the Adoption of Robotic Surgery through Lower Patient Hospitalization and Flexible Payment Models
5.2 Strategic Recommendations

6.0 Key Industry Contacts
6.1 Key Industry Contacts

7.0 Appendix
7.1 Technical Readiness Levels
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