Surgical Robotics Market – Global Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028, Segmented by Type (Surgical Systems, Instruments and Accessories, Services), by Application (General Surgery, Urology Surgery, Gynecology Surgery, Orthopedic Surgery, Cardiology Surgery, Head and Neck (including Neurology) Surgery, others), by End User (Hospitals, Ambulatory Surgery Centers, Other
Published Date: November - 2024 | Publisher: MIR | No of Pages: 320 | Industry: Healthcare | Format: Report available in PDF / Excel Format
View Details Buy Now 2890 Download Sample Ask for Discount Request CustomizationSurgical Robotics Market – Global Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028, Segmented by Type (Surgical Systems, Instruments and Accessories, Services), by Application (General Surgery, Urology Surgery, Gynecology Surgery, Orthopedic Surgery, Cardiology Surgery, Head and Neck (including Neurology) Surgery, others), by End User (Hospitals, Ambulatory Surgery Centers, Other
| Forecast Period | 2024-2028 |
| Market Size (2022) | 7.90 billion |
| CAGR (2023-2028) | 9.22% |
| Fastest Growing Segment | Hospitals |
| Largest Market | North America |
Market Overview
Global Surgical Robotics Market has valued at USD 7.90 billion in 2022 and is anticipated to witness an impressive growth in the forecast period with a CAGR of 9.22% through 2028.
The global aging population was increasing, leading to a higher demand for surgical procedures. Surgical robots were seen to address the healthcare needs of an aging demographic. Patients increasingly sought less invasive surgical options. Surgical robots allow for smaller incisions, reducing scarring and postoperative discomfort, which was a major driver of adoption.
Key Market Drivers
Rising Aging Population
As individuals age, they are more likely to develop age-related health conditions and chronic illnesses that may require surgical intervention. This includes procedures such as joint replacements, cardiac surgeries, and cancer treatments. Older individuals often present themselves with more complex health issues and comorbidities, making surgeries more challenging. Surgical robots can assist surgeons in performing these complex procedures with greater precision and control. Older patients may have reduced physiological reserves, making minimally invasive surgical techniques preferable. Surgical robots enable less invasive procedures with smaller incisions, which are generally better tolerated by older patients. Surgical robots can help minimize tissue damage and blood loss during surgery. This can lead to quicker postoperative recovery, which is especially important for older patients who may take longer to heal. Surgical robots offer enhanced precision and dexterity, reducing the risk of complications during surgery. For older patients who may be at higher risk of surgical complications, the improved outcomes associated with surgical robots are attractive.
Many older patients prefer minimally invasive surgical options when found at, as they often result in less scarring, reduced pain, and shorter hospital stays. Surgical robots enable these less invasive approaches. The global population is aging, with a significant increase in the number of elderly individuals. This demographic shift has led to a higher overall demand for healthcare services, including surgical procedures. Advancements in surgical robotics technology have made these systems more versatile and adaptable for a wider range of procedures. Surgeons are more inclined to use robotic assistance for complex surgeries, which are common among older patients. The aging population has economic implications, as governments and healthcare systems need to address the healthcare needs of this demographic. Surgical robots can improve the efficiency and effectiveness of healthcare delivery. Surgical robots can help expand access to specialized surgical care for older patients, even in areas with a shortage of highly skilled surgeons. Telemedicine and remote surgery capabilities can facilitate access. This factor will help in the development of Global
Technological Advancements
Surgical robots have become more precise and dexterous, with advanced robotic arms that mimic the movements of a surgeon's hand with greater accuracy. These arms are designed to reduce hand tremors and provide finer control. Many modern surgical robotic systems are equipped with high-definition 3D imaging capabilities. This provides surgeons with a more detailed and immersive view of the surgical site, enhancing visualization during procedures. Robotic surgical systems have evolved to provide improved ergonomics for surgeons. This includes more comfortable console designs, ergonomic instrument handles, and adjustable positioning to reduce surgeon fatigue during long procedures. Integration of AI and machine learning algorithms allows surgical robots to assist surgeons in various ways. AI can analyze preoperative and intraoperative data, offer real-time feedback, and even automate certain aspects of surgery. Some surgical robots provide haptic feedback, allowing surgeons to feel tactile sensations during surgery. This sensory feedback can enhance the surgeon's sense of touch and improve precision. Advancements in telecommunications technology have enabled remote surgery, where surgeons can perform procedures on patients located in different geographic areas. This has the potential to improve access to specialized surgical care.
Miniaturized robotic surgical systems with single-port access have been developed, allowing for even less invasive procedures. These systems can be used for a range of procedures, including gynecological and urological surgeries. Surgical robots are increasingly equipped with navigation systems that help surgeons plan and execute procedures with greater precision. These systems can assist in targeting tumors or other specific surgical sites. Some robotic systems are designed to be modular, allowing for customization based on the specific needs of individual surgeons and surgical teams. This flexibility enhances their usability across different procedures. Virtual reality (VR) and augmented reality (AR) are being integrated into surgical robotics to create teaching and simulation tools. Surgeons can practice procedures in a virtual environment, improving their skills and familiarity with robotic systems. Surgical robots can capture and analyze large amounts of data during procedures. Data analytics tools can help in postoperative analysis, quality control, and continuous improvement of surgical techniques. The integration of surgical robots with telemedicine platforms enables real-time consultation and collaboration among surgeons, regardless of their physical locations. This can be especially valuable for complex surgeries. Surgical robots are equipped with smart instruments that provide real-time feedback, such as tissue assessment or blood flow information, allowing surgeons to make informed decisions during surgery. This factor will pace up the demand of Global
Increasing Expansion into New Medical Specialties
As surgical robots become more versatile and adaptable, they can be used for a wider range of surgical procedures. This includes specialties beyond the initial applications in general surgery and urology. Surgeons can use robotic assistance in areas such as gynecology, orthopedics, cardiothoracic surgery, and neurosurgery. Manufacturers have developed specialized robotic systems and tools tailored to the unique requirements of different medical specialties. These specialized systems are designed to address the specific challenges and needs of each specialty, making them more appealing to surgeons and healthcare facilities in those fields. Many medical specialties involve complex and delicate procedures that benefit from the precision and stability offered by surgical robots. For example, in neurosurgery, where precision is critical, robots can assist in tumor removal and other intricate tasks.
Surgical robots are well-suited for minimally invasive surgical techniques, which are becoming increasingly important in various specialties. Patients often prefer minimally invasive procedures due to smaller incisions, faster recovery, and reduced postoperative pain. The use of surgical robots has been associated with improved surgical outcomes, including reduced complications and shorter hospital stays. Surgeons in various specialties are motivated to adopt this technology to provide the best possible outcomes for their patients. Expanding into new specialties opens significant growth opportunities for surgical robotics companies. As they target a broader range of procedures, they can increase their market share and revenue potential. The availability of robotic systems in different specialties encourages surgeons to receive training and gain expertise in robotic-assisted surgery. This, in turn, creates a pool of skilled robotic surgeons in various specialties. Surgical robots enable patients to access specialized surgical care even in regions with a shortage of highly skilled surgeons in a particular specialty. Telemedicine capabilities can further expand access to expert surgeons. The expansion of surgical robotics into new specialties has intensified competition among manufacturers. This competition drives innovation, leading to the development of more advanced robotic systems and tools for specific medical fields. Hospitals and healthcare facilities recognize the economic benefits of offering a wider range of specialized robotic-assisted procedures. It can attract patients seeking advanced and specialized care, which can contribute to revenue growth. This factor will accelerate the demand of Global Surgical Robotics Market.
Key Market Challenges
Cost of Maintenance and Upgrades
Acquiring a surgical robotic system is a significant upfront investment for hospitals and healthcare facilities. However, this initial purchase is only the beginning of the financial commitment. Surgical robots require regular maintenance to ensure they function correctly and safely. Maintenance involves servicing, calibrating, and repairing components. Maintenance contracts with manufacturers or third-party service providers incur costs. The software that controls surgical robots needs to be regularly updated to improve functionality, address bugs, and ensure compatibility with other systems. These updates come with associated costs. Instruments and accessories used with surgical robots may need to be replaced or refurbished periodically due to wear and tear. These costs can add up over time. As technology advances, healthcare institutions may need to upgrade their existing robotic systems to stay competitive or take advantage of new features. Upgrades can be expensive and require additional investment. Surgical teams must undergo ongoing training and recertification to maintain their proficiency in using robotic systems. Training programs have associated costs, including instructor fees and equipment usage fees.
Limited Access and Equity
The high cost of acquiring and maintaining surgical robotic systems can create financial barriers for many healthcare institutions, particularly those in resource-constrained regions. Large capital expenditures may not be feasible for smaller hospitals and clinics. Access to surgical robotics technology is not uniform across regions and countries. Larger, more economically developed urban areas tend to have better access to advanced medical technologies, including surgical robots, compared to rural or underserved areas. Regions with less developed healthcare infrastructure may lack the necessary facilities, trained personnel, and technical support to effectively adopt and utilize surgical robots. Economic disparities within and between countries can lead to unequal access to healthcare resources. Patients in poor communities may have limited access to hospitals and facilities that offer robotic-assisted surgeries. In some regions, insurance coverage and reimbursement policies may not fully support the use of surgical robots. This can impact patient access to robotic-assisted procedures, as not all patients can afford to pay out of pocket. Surgical robotic systems require skilled operators. Limited access to training and educational programs can hinder healthcare professionals' ability to perform robotic surgeries effectively.
Key Market Trends
Miniaturization
Miniaturized surgical robots allow for even smaller incisions, contributing to less invasive procedures. Smaller incisions are associated with reduced postoperative pain, shorter hospital stays, and quicker recovery times. Smaller robotic instruments can navigate through tight spaces within the body more easily, making them suitable for procedures in anatomically challenging areas. Miniaturized robotic systems can be used for a broader range of procedures across various medical specialties, including those that involve delicate tissues or structures. Miniaturized robotic systems are particularly useful in pediatric surgery, where the size and scale of traditional robotic systems may not be suitable for young patients. Some miniaturized robotic systems are designed for single-port access, allowing surgeons to perform surgeries through a single incision. This approach further reduces scarring and trauma to the patient. Smaller robotic systems are well-suited for use in ambulatory surgery centers, which can provide more cost-effective and convenient options for patients. Miniaturization can lead to cost savings in terms of equipment size, maintenance, and storage, making surgical robotics more accessible to a wider range of healthcare facilities. Smaller robotic systems may have simpler set-up and installation requirements, which can reduce the time needed to prepare for surgery.
Segmental Insights
Type Insights
In 2022, the Global Surgical Robotics Market largest share was held by Surgical Systems segment and is predicted to continue expanding over the coming years.
Application Insights
In 2022, the Global Surgical Robotics Market largest share was held by General Surgery segment and is predicted to continue expanding over the coming years.
End User Insights
In 2022, the Global Surgical Robotics Market was dominated by Hospitals segment in the forecast period and is predicted to continue expanding over the coming years.
Regional Insights
The North America region dominates the Global Surgical Robotics Market in 2022. North America, especially the U.S., has a well-developed and technologically advanced healthcare infrastructure. This infrastructure includes many hospitals and medical facilities that can afford and integrate surgical robotic systems.
Recent Developments
- In February 2022, Followingthe VELYS Robotic-Assisted Solution's approval by the Medical Device Divisionof the Israeli Ministry of Health (AMAR) for commercial usage in Israel, DePuySynthes, the Orthopedics Company of Johnson & Johnson, said that the firstclinical cases were carried out in Tel Aviv. The VELYS Robotic-AssistedSolution is a component of the larger VELYS Digital Surgery Platform, whichconsists of interconnected technologies driven by data insights and intended toimprove orthopedic patient, surgeon, and team experiences throughout the fullcontinuum of care, from preoperative to postoperative. VELYS Robotic-AssistedSolution is a ground-breaking operating table mounted solution that combinesproprietary technology, advanced planning capabilities, and a next-generationdesign to assist surgeons in precisely resecting bones during total knee replacementthat align and position the implant in relation to the soft-tissue without theneed for pre-operative imaging. Less than half the size of some otherrobotic-assisted options, the effective and modest design fits into anyoperating room and does so with a far smaller footprint.
- In September 2022, The Versius SurgicalRobotic System has been introduced as part of a two-year clinical studycooperation between CMR Surgical (CMR), the world's leading surgical roboticsbusiness, and Institut Curie, France's premier cancer research institute. TheVersius device will initially be used exclusively for minimally invasivehysterectomies in gynecological cancer surgery. The first trial will comparetraditional and robotically assisted surgery after the staff at Institut Curiehave finished a full training session. Its dual objectives are to evaluate theadvantages of robotic surgery for hysterectomy procedures and to research howits use can alter a patient's eligibility for a hysterectomy. The ergonomicsprovided by Versius will be the subject of the second investigation.
- In September 2022, Anatomic, reverse,and revision shoulder replacements using the Identity Shoulder System havereceived FDA 510(k) clearance, according to Zimmer Biomet Holdings, Inc., aleader in global medical technology. To reduce pain and maximize range ofmotion, the Identity Shoulder System is a convertible system that employspatented technology to match each surgeon's approach to a specific patient'sanatomy. The Identity Shoulder System, the newest addition to Zimmer Biomet'sline of shoulder replacement systems, is made to let surgeons precisely planand carry out a patient-specific surgical procedure.
Key Market Players
- AsensusSurgical, Inc.
- SiemensHealthineers AG
- BrainlabAG
- CMRSurgical Ltd.
- Curexo,Inc.
- StrykerCorporation
- GlobusMedical, Inc.
- Smith& Nephew plc
- IntuitiveSurgical, Inc.
- Johnson& Johnson
- Kinovainc.
- Medtronicplc
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