DUBLIN--(BUSINESS WIRE)--Research and Markets has announced the addition of the "Global Robotic Cardiology Surgery Market 2016-2025: Market Size, Share, Forecast and Strategy" report to their offering.
Global demand for cardiac surgery robots will have a cumulative market total of $7.50 billion during 2017-2025 owing to the substantial increase of robot-based and computer-assisted cardiological surgery procedures for heart disorders.
Global Robotic Cardiology Surgery Market 2016-2025: Market Size, Share, Forecast and Strategy is based on a comprehensive research of the robotic cardiology surgery market by analyzing the entire global market and all its sub-segments through extensively detailed classifications. Profound analysis and assessment are generated from premium primary and secondary information sources with inputs derived from industry professionals across the value chain.
Based on product and service, the global market is segmented into the following sub-markets with annual revenue included for 2014-2025 for each section:
- Robotic Systems
- Instruments and Accessories
-
System Services
Based on equipment type, the global market is analyzed on the following segments with annual revenue in 2016, 2017, and 2025 provided for each section. Technological status of each class of equipment is also included:
- Robot Machines
- Navigation Systems
- Planners and Simulators
-
Other Equipment
Companies Mentioned
- CAE Healthcare
- Corindus Vascular Robotics, Inc.
- DePuy Synthes (Johnson & Johnson)
- Freehand 2010 Ltd.
- Hansen Medical
- Intuitive Surgical
- Medrobotics Corporation
- Medtronic Inc.
- Meerecompany Inc.
- Simbionix USA Corp.
- Titan Medical
- TransEnterix, Inc.
Key Topics Covered:
1 Introduction
2 Market Overview and Qualitative Analysis
3 Technology of Robotic Cardiology Surgery
4 Analysis of Global Market by Product
5 Analysis of Global Market by Equipment Type
6 Analysis of Global Market by Region
7 Competitive Landscape
For more information about this report visit http://www.researchandmarkets.com/research/9l7nhp/global_robotic