Artificial Intelligence
Worldwide Industry for Digital Surgery Technologies to 2030 – Impact of COVID-19
Dublin, Nov. 16, 2020 (GLOBE NEWSWIRE) — The “Global Digital Surgery Technologies Market: Focus on Product Type, Technology, 12 Countries’ Data, and Competitive Landscape – Analysis and Forecast, 2020-2030” report has been added to ResearchAndMarkets.com’s offering.
The global digital surgery technologies market was valued at $252.5 million in 2019 and is anticipated to reach $5,110.5 million by 2030, growing at a CAGR of 32.1% during the forecast period 2020-2030.
The increasing complexities in clinical decision making, rising surgeon’s workload, and huge R&D investments are the major factors fueling the market growth. In addition to these factors, there are significant challenges and restraints, which are restricting market growth. These challenges include the surgeons’ reluctance toward the adoption of advanced technologies, such as AI and the privacy and security concerns related to healthcare data. Hence, it is anticipated that these trends will have a significant impact on the digital surgery technologies market in the next five years, and the market will grow multifold.
The global digital surgery technologies market is currently witnessing a significant change in the market landscape. There is rising investment in the development of healthcare infrastructure, increasing evidence for efficient and promising results in treatment and diagnosis assistance. Thus, this is leading to potential growth opportunities for the digital surgery technologies market. Moreover, there is an extensive entry of emerging players developing AI-powered medical devices for surgical purposes, and many of the global tech giants, such as Microsoft and Google, are entering into the healthcare space. All these predominant factors have led to a significant rise in sales of digital surgery technologies
The global digital surgery technologies market consists of numerous large-scale as well as small-scale manufacturers and vendors. Presently, with the increasing adoption of AI in healthcare, the manufacturers in the market have an ample number of opportunities to expand their offerings and to establish a strong foothold in the market. In the past years (December 2015-August 2020), the digital surgery technologies market witnessed approximately 47 partnerships, alliances and business expansions, 43 new offerings, 15 regulatory and legal approvals, 33 funding activities, 13 mergers and acquisitions, and 11 procurement and sales.
Most of the manufacturers in the market are incorporating collaborations and partnerships with not only other companies but the hospitals, medical schools, ambulatory surgical centers, and surgeons as the key strategies to develop novel digital surgery products and attain a strong financial position in the market.
The key players contributing to the global digital surgery technologies market are Osso VR, Augmedics Ltd., Brainlab AG, Medtronic plc, Caresyntax, Inc., 3Dintegrated ApS, DASH Analytics, Novadaq Technologies, Inc., Fundamental VR, EchoPixel, Inc., Surgical Science Sweden AB, 3D Systems Inc., VirtaMed AG, Mimic Technologies, and Centerline Biomedical, among others.
Key Questions Answered in this Report:
Key Topics Covered:
1 Product Definition 2 Research Scope 3 Research Methodology 4 Industry Analysis 5 Competitive Landscape 6 Global Digital Surgery Technologies Market Scenario 7 Global Digital Surgery Technologies Market (by Technology), 2020-2030 8 Global Digital Surgery Technologies Market (by Product Type), 2020-2030 9 Global Digital Surgery Technologies Market (by Region), 2019-2030 10 Company Profiles For more information about this report visit https://www.researchandmarkets.com/r/dxwqbd Research and Markets also offers Custom Research services providing focused, comprehensive and tailored research.
1.1 Inclusion and Exclusion Criteria
1.1.1 Inclusions
1.1.2 Exclusions
2.1 Scope of Work
2.2 Key Questions Answered in the Report
3.1 Primary Research
3.2 Secondary Research
3.3 Data Sources and Categorization
3.4 Criteria for Company Profiles
3.5 Market Estimation and Forecast Methodology
3.6 Data Triangulation
3.7 Assumptions and Limitations
4.1 Industry Ecosystem
4.2 Legal Requirements and Regulations
4.2.1 Regulatory Framework for Artificial Intelligence-Based FDA-Approved Medical Devices and Algorithms
4.2.1.1 Restraints in the Current Regulatory Process for AI/ML-Based Medical Device/Algorithm
4.2.2 Regulatory Framework in the U.S.
4.2.3 Regulatory Framework in Europe
4.2.3.1 Changes in Rule
4.2.3.2 New Rules in the Annexure VIII
4.2.3.3 Major Changes in the EU due to the Implementation of MDR:
4.2.3.3.1 Expanded device definitions requiring re-examination of the current classification of all devices
4.2.3.3.2 Quality management system
4.2.3.3.3 Technical file
4.2.3.3.4 Need to comply with new identification and traceability (UDI) requirements
4.2.3.3.5 More emphasis on post-market surveillance
4.2.3.3.6 Role of internal audits and requirement of audits to be strengthened
4.2.3.3.7 Dedicated Personnel for MDR compliance
4.2.4 Regulatory Framework in Japan
4.2.5 Regulatory Framework in China
4.2.6 Regulatory Framework in Other Countries
4.2.6.1 Regulatory Framework in India
4.2.6.2 Regulatory Framework in Latin America
4.2.6.3 Regulatory Framework in the Middle East and Africa
4.2.7 Consortiums, Associations, and Regulatory Bodies
4.3 Consumer Analysis
4.3.1 End-Result Analysis
4.4 Case Studies
4.4.1 Case Study: Surgical Simulation (Virtual Reality)
4.4.2 Case Study: Surgical Data Science
4.4.3 Case Study: Surgical Data Science
4.4.4 Case Study: Surgical Navigation, and Advanced Visualization Systems, Augmented Reality (AR)
4.4.5 Case Study: Surgical Navigation and Advanced Visualization Systems
4.5 Impact of COVID-19 on Digital Surgery Technologies Market
4.5.1 Changes in Surgical Facilities
4.5.2 COVID-19 Created an Elective Surgery Backlog
4.5.3 Telehealth as a Solution
4.5.4 Impact on Digital Surgery Technology-Based Product Manufacturers
5.1 Key Developments and Strategies
5.1.1 New Offerings
5.1.2 Partnerships, Alliances, and Business Expansions
5.1.3 Regulatory and Legal Developments
5.1.4 Funding Activities
5.1.5 Mergers and Acquisitions
5.1.6 Procurement and Sale Activities
5.2 Market Share Analysis
5.3 Growth Share Analysis
5.3.1 Growth Share Matrix (by Product)
5.3.2 Growth Share Matrix (by Technology)
5.3.3 Growth Share Matrix (by Region)
6.1 Assumptions and Limitations
6.2 Key Findings
6.3 Potential Opportunities – Digital Surgery Technologies Market
6.3.1 Promising Growth Opportunities for Remote Care and Telepresence
6.4 Global Digital Surgery Technologies Market Size and Forecast
6.5 Market Drivers
6.5.1 Enhanced Accuracy and Promising Recovery from Pre-Operative Surgical Planning
6.5.2 Results Based on Quantifiable Data
6.5.3 Increasing Interest of Technologists and Start-Ups
6.6 Market Restraints
6.6.1 Minimal Healthcare Budget Allocation for Digital Surgery Technologies
6.6.2 Requirement of Additional Surgical Training
6.6.3 Backlog in Elective Surgery Posing as a Major Challenge
6.6.3.1 Requirement of Transparent Regulatory Guidelines and Reimbursement Policies for AI/ML-Based Medical Device/Algorithm
6.7 Market Trends
6.7.1 Neutral Vendor Platforms
6.7.2 Experimental Phase with Mixed Technologies (Both on Software and Hardware)
6.7.3 Virtual Access and Enhanced Patient Outcomes through Cloud Technology Likely to be the Future Trend
7.1 AI Algorithms
7.2 Augmented Reality and Virtual Reality
7.2.1 Virtual Reality
7.2.2 Augmented Reality
7.3 Mixed Reality
7.4 Other Technologies
8.1 Surgical Simulation Systems
8.2 Surgical Data Science
8.3 Surgical Navigation and Advanced Visualization
8.4 Surgical Planning
9.1 North America
9.1.1 U.S.
9.1.2 Canada
9.2 Europe
9.2.1 Germany
9.2.2 France
9.2.3 Italy
9.2.4 U.K.
9.2.5 Spain
9.2.6 Rest-of-Europe
9.3 Asia-Pacific
9.3.1 China
9.3.2 Japan
9.3.3 South Korea
9.3.4 Australia
9.3.5 India
9.3.6 Rest-of-Asia-Pacific
9.4 Rest-of-the-World
10.1 Overview
10.2 Osso VR Inc.
10.2.1 Company Overview
10.2.2 Role of Osso VR Inc. in the Global Digital Surgery Technologies Market
10.2.3 Osso VR Inc.: SWOT Analysis
10.3 Augmedics Ltd.
10.3.1 Company Overview
10.3.2 Role of Augmedics Ltd. in the Global Digital Surgery Technologies Market
10.3.3 Augmedics Ltd.: SWOT Analysis
10.4 Brainlab AG
10.4.1 Company Overview
10.4.2 Role of Brainlab AG in the Global Digital Surgery Technologies Market
10.4.3 Brainlab AG: SWOT Analysis
10.5 Medtronic plc
10.5.1 Company Overview
10.5.2 Role of Medtronic plc. in the Global Digital Surgery Technologies Market
10.5.3 Financials
10.5.4 Key Insights About the Financial Health of the Company
10.5.5 Medtronic plc.: SWOT Analysis
10.6 Caresyntax Inc
10.6.1 Company Overview
10.6.2 Role of Caresyntax Inc. in the Global Digital Surgery Technologies Market
10.6.3 Caresyntax Inc.: SWOT Analysis
10.7 3Dintegrated ApS
10.7.1 Company Overview
10.7.2 Role of 3Dintegrated ApS in the Global Digital Surgery Technologies Market
10.7.3 3Dintegrated ApS: SWOT Analysis
10.8 DASH Analytics
10.8.1 Company Overview
10.8.2 Role of DASH Analytics in the Global Digital Surgery Technologies Market
10.8.3 DASH Analytics: SWOT Analysis
10.9 Novadaq Technologies Inc.
10.9.1 Company Overview
10.9.2 Role of Novadaq Technologies Inc in the Global Digital Surgery Technologies Market
10.9.3 Novadaq Technologies Inc.: SWOT Analysis
10.1 FundamentalVR
10.10.1 Company Overview
10.10.2 Role of FundamentalVR in the Global Digital Surgery Technologies Market
10.10.3 FundamentalVR: SWOT Analysis
10.11 EchoPixel Inc.
10.11.1 Company Overview
10.11.2 Role of EchoPixel, Inc. in the Global Digital Surgery Technologies Market
10.11.3 EchoPixel, Inc.: SWOT Analysis
10.12 Surgical Science Sweden AB
10.12.1 Company Overview
10.12.2 Role of Surgical Science Sweden AB in the Global Digital Surgery Technologies Market
10.12.3 Surgical Science Sweden AB: SWOT Analysis
10.13 VirtaMed AG
10.13.1 Company overview
10.13.2 Role of VirtaMed AG in the Global Digital Surgery Technologies Market
10.13.3 VirtaMed AG: SWOT Analysis
10.14 Mimic Technologies, Inc.
10.14.1 Company Overview
10.14.2 Role of Mimic Technologies, Inc. in the Global Digital Surgery Technologies Market
10.14.3 Mimic Technologies, Inc.: SWOT Analysis
10.15 Centerline Biomedical
10.15.1 Company overview
10.15.2 Role of Centerline Biomedical in the Global Digital Surgery Technologies Market
10.15.3 Centerline BioMedical: SWOT Analysis
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