Medical robotics is a fast-growing field in the medical device industry. The surgical robotics segment is leading the market. The surgical robotics market can be segmented into capital equipment and consumable accessories. The robotic surgical system accessories occupy the majority of the market, driven by the demands of high-volume procedures. Medical robotics companies are innovating at immense speed in order to keep up.
Based on procedure types, the surgical robotics market can be broadly divided into three primary sub-segments: general surgery robotics, orthopaedic robotics, and neurosurgery robotics.
Leading medical device companies in robotics
Medical robotics is an emerging field in healthcare, and each of the segments have unique challenges and expectations for success as they continue their development over the next decade. While the markets for exoskeletons, care robots, and hospital robots are still in the early stage of market development, the market for surgical robotic systems, which are used to perform minimally invasive procedures that might otherwise be difficult with traditional open or laparoscopic techniques, is surging rapidly in the past few years.
Leading adopters include Intuitive Surgical, Medtronic, Johnson & Johnson, Stryker, Zimmer Biomet, and Cyberdyne.
Discover the leading medical robotics companies in the medical device industry
Using its experience in the sector, Medical Device Network has listed some of the leading companies providing products and services related to robotics.
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The information provided in the download document is drafted for medical device executives and technology leaders involved in medical device robotics solutions.
The download contains detailed information on suppliers and their product offerings, alongside contact details to aid purchase or hiring decisions.
Among the leading robotics suppliers are Intuitive Surgical, Stryker, Medtronic, Johnson & Johnson, Ekso Bionics, CMR Surgical, Globus Medical, MicroPort Scientific, ReWalk Robotics, and Smith & Nephew.
Future of robotics in the medical device industry
According to GlobalData forecasts, the total surgical robotics market was worth $4.6bn in 2020 globally. By 2030, it will have grown at a strong compound annual growth rate (CAGR) of 8.5% to $10.3bn, bolstered by the coming marriage of artificial intelligence (AI) and robotics within medical devices.
For full details (including contact details) on the leading companies within this space, download the free Buyer’s Guide below:
Frequently asked questions
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How is robotics advancing the medical device industry?
Robotics is transforming the medical device industry by enabling precision in surgeries, rehabilitation, and patient care. Robotics-assisted surgeries improve accuracy, reduce recovery times, and offer minimally invasive procedures. The industry also sees the integration of exoskeletons and care robots for patient mobility and support. Innovations like AI-enhanced surgical robots are set to further boost the efficiency and scope of medical interventions.
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What are the main applications of robotics in surgery?
Robotic systems in surgery are primarily used for minimally invasive procedures, such as laparoscopy, orthopaedics, and neurosurgery. These systems offer enhanced precision, dexterity, and control, enabling surgeons to perform complex procedures with reduced risk of human error. Robotic arms with high-definition cameras provide real-time visualisation, while robotic tools allow for smaller incisions, leading to faster patient recovery and reduced hospital stays.
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How do AI and robotics combine to enhance medical device functionality?
AI and robotics are increasingly working together to advance the capabilities of medical devices. AI enables real-time data analysis, improving decision-making during procedures. In robotics, AI-driven algorithms assist with predictive maintenance of devices and enhance the accuracy of robotic surgeries by providing automated adjustments during operations. This collaboration between AI and robotics leads to more personalised and effective treatments for patients.
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What challenges are being addressed by robotics in medical rehabilitation?
Robotic devices such as exoskeletons and prosthetics are revolutionising rehabilitation by providing personalised therapy and improving mobility for patients with disabilities or injuries. These systems are designed to support repetitive motions, track patient progress, and adapt to individual needs, significantly improving the recovery process. Robotics ensures that patients receive consistent, controlled movements, which are critical for neuromuscular rehabilitation.
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What are the future trends in medical robotics?
The future of medical robotics is expected to witness greater integration with AI and machine learning, leading to more autonomous systems capable of performing routine tasks with minimal human intervention. Advances in miniaturisation will enable even less invasive surgical procedures, while the development of soft robotics could lead to more flexible and adaptable medical devices. The overall trend points toward more efficient, precise, and patient-specific robotic interventions in healthcare.