Spinal Surgical Robots Market Size, Share, By Product (Robotic Arms, Navigation Systems, Image-Guided Systems, and Accessories), By Method (Minimally Invasive Surgery (MIS), Open Surgery), By Application (Spinal Fusion, Minimally Invasive Procedures, Scoliosis, Osteoporotic Compression Fractures, and Others), By End-User (Hospitals, Ambulatory Surgical Centers, and Others), and By Region - Trends, Analysis and Forecast till 2034

Report Code: PMI554224 | Publish Date: August 2024 | No. of Pages: 182

Spinal Surgical Robots Market Overview

Spinal surgical robots market size was valued at USD 225.9 Million in 2024 and is expected to reach USD 714.6 Million by 2034 growing at a CAGR of 13.5%

Spinal surgical robots are among the top innovative medical devices surgeons use to perform more precisely and accurately complicated spinal procedures. These systems are endowed with a high-resolution imaging computer-aided navigation unit and a robotic arm to undertake indifferently classified spine surgeries, such as spinal fusions, disc replacements, and fracture fixations. Essentially, a spinal surgical robot comprises a robotic arm, a navigation system, and special software. The degrees of freedom of a robotic arm typically range from many to an infinite number, thus giving it extreme precision in movement and the ability to reach areas that human hands may not. It took in the preoperative imaging data and used a CT or MRI scan in its navigation system to form a particular 3D map of the patient's spine. The map is then followed as a guide to how the robotic arm is controlled in the placement of the implants, the addition of screws, or any other placement of the surgical instrument in fine detail.

Surgical robots can provide better surgical accuracy by using a given image in "real-time" and computer-assisted navigation to guide the surgeon to avoid structures such as nerves, blood vessels, or sensitive tissue. This may avoid possible complications, make smaller incisions, and even ensure less time for patient recovery. In addition, robotic assistance is likely to relieve surgeons of fatigue from lengthy procedures, with probable improvement in the overall outcomes of surgeries. Other advantages of spinal surgical robots are those related to planning and customization. Using the system's software, surgeons can generate a detailed preoperative plan of the procedure to be performed by simulation and achieve optimum placement of implants before the surgery. Such planning will enhance efficiency during surgeries and likely have better results for patients in the long run. In addition, robotic systems can be programmed to accommodate the anatomy of individual patients, allowing very personalized surgical approaches.

Spinal Surgical Robots Market Research Report

Disclaimer: This data is only a representation. Actual data may vary and will be available in the report.

Spinal Surgical Robots Market Dynamics

Key Drivers of Target Market:

Increasing Prevalence of Spinal Disorders:

  • One of the major driving factors behind this growth is the rising incidences of spinal disorders, such as degenerative disc disease, herniated discs, and scoliosis. Treatment for such diseases usually involves surgical procedures; hence, robotic systems ensure improved patient outcomes with enhanced precision and accuracy. The chances of developing such conditions in people above the age of 65 increase, thereby further fueling demand for such robotic systems. Moreover, growing awareness regarding low-invasive procedures through surgeries also serves to boost market growth.

Attention to Better Outcomes for Patients:

  • Healthcare today is oriented towards achieving better patient outcomes. Robotic systems reduce the potential for complications, increasing accuracy and improving overall patient satisfaction. Precise, controlled surgical actions by robots minimize tissue damage and post-operative complications. Besides, robotic systems have helped surgeons access complex anatomical areas easily, improve surgical precision, and reduce procedure times. Above all, these are some of the reasons that ensure better recovery and satisfaction of patients.

Restrains:

High Costs Procedures:

  • Among the few primary deterrents, high investment in robotic systems characterizes purchase, installation, maintenance, disposables, and further continuing software upgrades. Such high upfront and recurring costs greatly limit its adoption within resource-constrained healthcare settings, especially in developing economies. Further, training surgeons and staff on operating such complex systems adds to the overall financial burden.

Opportunities:

Expanding Applications:

  • While spinal fusion and minimally invasive procedures are known applications, robotic solutions still have scope for application in other complex spinal conditions, such as degenerative disc disease, tumors, and trauma. In general, such diseases mandate complex surgical maneuvers comprising precise instrument placements, where robotic assistance could improve the outcome. Integrating robotic systems with advanced imaging and navigation technologies will facilitate better planning and execution of challenging procedures with confidence and improved efficiency.

Spinal Surgical Robots Market Segmentation

The market is segmented based on Product, Method, Application, End-User, and Region.

Product Insights:

  • Robotic Arms: Spinal surgery robotic arms are designed to provide additional precision and control to the operating surgeon. Such devices can make very fine movements that are hardly possible by human hand, thus eliminating the risk of a human error factor. Robotic arms are used with other systems to increase the precision of procedures like spinal fusions and disc replacements.
  • Navigation Systems: These help in guiding the surgeon during the spinal procedure. They use advanced imaging technology to create detailed maps of the spine, thereby helping the surgeon plan and conduct surgeries efficiently and with high precision. These systems can significantly improve results by ensuring the proper placement of surgical tools.
  • Image-Guided Systems: Image-guided systems merge real-time imaging with surgical navigation to enable continuing visualization during operations. This helps a surgeon view the inside of the human body without making large incisions, hence allowing for visibility during the most minimally invasive surgeries. These systems increase safety and effectiveness in spine surgeries by providing enhanced visualization at the site of surgery.
  • Accessories: The spinal surgical robots have additional accessories, including tools and attachments supporting the robotic systems. Examples include specialized surgical instruments and software applications that enhance the functionality of the robotic arms and navigation systems. Accessories are critical to tailoring or customizing robotic systems to meet surgical needs and patient anatomy.

Method Insights:

  • Minimally Invasive Surgery (MIS): In minimally invasive surgery, small, less painful incisions are made, resulting in less tissue damage and helping patients recover faster. Robotic systems offer better dexterity and, hence, great potential for the techniques of MIS by providing access that lets surgeons perform procedures with minimal interference with surrounding tissues.
  • Open Surgery: Conventionally, open surgery is the traditional method through which spinal surgeries are performed with larger incisions to access the spine. While minimally invasive techniques have evolved significantly in recent times, open surgery remains inevitable in some complex cases. In open surgery, robotic systems enhance accuracy and reduce the amount of physical strain on surgeons, thereby improving overall surgical outcomes.

Application Insights:

  • Spinal Fusion: This is one of the more common procedures where two or more vertebrae irreversibly join to rid motion between them, usually to relieve degenerative disc disease or scoliosis. Robotic systems help enhance accuracy in screw placements and spinal structure alignments, hence increasing the success rate of such surgeries.
  • Minimally Invasive Procedures: Many procedures are minimally invasive for spinal conditions, requiring small incisions and specialized instruments. A robotic system facilitates such procedures due to better visualization and control, which may translate into reduced operative times, decreased blood loss, and faster patient recovery.
  • Scoliosis: Abnormal curvature of the spine is corrected in scoliosis surgery. The help provided by robotic systems, from planning to the execution of complex procedures, includes correct placement of rods and screws, which go a long way in effectively realigning the spine. Using robotics increases the precision that is needed for better long-term outcomes in scoliosis patients.
  • Osteoporotic Compression Fractures: Osteoporotic compression fractures occur when the vertebrae weaken due to osteoporosis and then collapse. Robotic systems guide minimally invasive treatments, including vertebroplasty or kyphoplasty techniques, using bone cement injection to bind the fracture. These systems provide additional precision, reduce procedural risks, and subsequently facilitate patient recoveries.
  • Others: This involves other spinal conditions and procedures where robotic assistance is plausible, such as spinal tumor removals or disc replacements. With the versatility of the robotic systems, adaptation in several spine surgeries is quite possible to improve precision, safety, and outcomes for a wide array of uses.

End-User Insights:

  • Hospitals: The hospitals are the main end-users of spinal surgical robots because they possess all the infrastructure and the ability to undertake complex surgeries. Such robotic systems implemented in hospitals provide better care, permit more precise and less invasive procedures, and eventually improve patient outcomes.
  • Ambulatory Surgical Centers: Ambulatory surgical centers are oriented to host surgeries where a patient does not need to spend a night in the hospital. Hence, spinal surgical robots in ASCs provide very accurate and least invasive procedures that can make a patient recover and get discharged on the same day. This efficiency is most welcomed by both patients and healthcare providers.
  • Others: Other end-users are specialized clinics and research institutions using spinal surgical robots for clinical and experimental purposes. Such facilities often develop and upgrade new surgical techniques and technologies that may help move robotic-assisted spinal surgery forward.

Regional Insights

  • North America: North America, particularly the United States, is one of the leading markets for spinal surgical robots because it has a well-established healthcare system and significant investment in medical technology. Besides, it has good regulatory frameworks, extended R&D activities, and many skilled surgeons trained to perform surgeries through robots. Again, the rise in spinal disorders and aging populations further raise the demand for advanced surgical solutions in North America.
  • Asia Pacific: The region is in an accelerated growth curve in the spinal surgical robots market, driven by rising healthcare expenditure, growing awareness about advanced medical technology, and improving healthcare infrastructure in Asia Pacific countries. A few significant contributors to growth include China, Japan, and India. There is a large aging population and a greater incidence of spinal disorders; hence, there is a high demand for innovative surgical solutions in this region. Collaborations between local and international companies further stimulate the market's growth in Asia Pacific.
  • Europe: The European region has a well-established spinal surgical robot market, with Germany, the UK, and France being some of the forerunners in this segment. This is mainly due to the heavy funding for healthcare, coupled with supportive government policies, in addition to a strong focus on innovation that makes the adoption of advanced surgical technologies easier. Moreover, an extensive network of high-quality academic and research institutions in Europe would actively participate in developing and refining robotic surgery techniques, thereby boosting this market's growth.
  • Latin America: Spinal surgical robots are slowly being adopted, driven by countries like Brazil and Mexico. Improving economic conditions, increasing investments in healthcare, and a growing focus on the enrichment of surgical outcomes are some factors supporting the region's market growth. However, the need for more access to advanced healthcare facilities and a shortage of skilled professionals may hinder the fast adoption rate.
  • Middle East and Africa: The Middle East & Africa region has rapidly emerged as a potential market for spinal surgical robots, especially countries like UAE, Saudi Arabia, and South Africa showing interest in advanced medical technologies. Government initiatives for better health services and improved infrastructure have been the reasons for fast healthcare growth in this region. While the adoption rate is still at a nascent stage, increasing investments in healthcare and a growing focus on medical tourism would be accorded to drive demand for spinal surgical robots; however, at present, it is mired by economic disparities and access to cutting-edge technology in some areas, which may make wide diffusion difficult.

Spinal Surgical Robots Market Report Scope:

Attribute

Details

Market Size 2024

USD 225.9 Million 

Projected Market Size 2034

USD 714.6 Million

CAGR Growth Rate

13.5%

Base year for estimation

2023

Forecast period

2024 – 2034

Market representation

Revenue in USD Million & CAGR from 2024 to 2034

Market Segmentation

By Product - Robotic Arms, Navigation Systems, and Image-Guided Systems, Accessories.

By Method - Minimally Invasive Surgery (MIS), and Open Surgery.

By Application - Spinal Fusion, Minimally Invasive Procedures, Scoliosis, Osteoporotic Compression Fractures, and Others

By End-User - Hospitals, Ambulatory Surgical Centers, Other.

Regional scope

North America - U.S., Canada

Europe - UK, Germany, Spain, France, Italy, Russia, Rest of Europe

Asia Pacific - Japan, India, China, South Korea, Australia, Rest of Asia-Pacific

Latin America - Brazil, Mexico, Argentina, Rest of Latin America

Middle East & Africa - South Africa, Saudi Arabia, UAE, Rest of Middle East & Africa

Report coverage

Revenue forecast, company share, competitive landscape, growth factors, and trends

Segments Covered in the Report:

This report forecasts revenue growth at global, regional, and country levels and provides an analysis of the latest industry trends and opportunities in each of the sub-segments from 2024 to 2034. For this study segmented the target market report based on Product, Method, Application, End-User, and Region.

Segmentation:

By Product:

  • Robotic Arms
  • Navigation Systems
  • Image-Guided Systems
  • Accessories

By Method:

  • Minimally Invasive Surgery (MIS)
  • Open Surgery

By Application:

  • Spinal Fusion
  • Minimally Invasive Procedures
  • Scoliosis
  • Osteoporotic Compression Fractures
  • Others

By End-User:

  • Hospitals
  • Ambulatory Surgical Centers
  • Others

By Region:

  • North America
    • U.S.
    • Canada
  • Europe
    • Germany
    • UK
    • France
    • Russia
    • Italy
    • Rest of Europe
  • Asia Pacific
    • China
    • India
    • Japan
    • South Korea
    • Rest of Asia Pacific
  • Latin America
    • Brazil
    • Mexico
    • Rest of Latin America
  • Middle East & Africa
    • GCC
    • Israel
    • South Africa
    • Rest of Middle East & Africa

Spinal Surgical Robots Market Key Players

The key players operating the Spinal Surgical Robots Market include Becton Dickson and Company, Omnicell Inc., Baxter International Inc., Capsa Healthcare, Yuyama Co Ltd., Medictech Pharmacy Management Solutions, Mckesson Corporation, Touchpoint Medical Solutions, Tension Corporations, Pearson Medical Technologies LLC, RxSafe LLC, Cerner Corporation, ABB Robotics, KUKA AG, and Talyst Systems LLC.

Spinal Surgical Robots Market Key Players

Disclaimer: This data is only a representation. Actual data may vary and will be available in the report.

Spinal Surgical Robots Market Key Issues Addressed

  • In July 2024, Manipal Hospital emerged as a pioneer in spinal surgery, performing 50 successful robotic spinal procedures in the first month of operation. The school, known for its dedication to healthcare excellence, has pioneered precise robotic methods that have transformed spinal surgery. The introduction of robotic surgery to treat complex spine disorders provides a new ray of hope for patients seeking precise and safe remedies. Among the extraordinary success stories is a 15-year-old Bangladeshi girl with scoliosis, a spinal structural condition. She had the first-ever robotic scoliosis correction surgery in South India, showcasing the hospital's dedication to pushing the limits of medical innovation.
  • In March 2024, Banner Del E. Webb performed its first robotic-guided spinal surgery. Surgical robots improve efficiency and accuracy in complicated surgeries. The MAZOR X Spinal Stealth Edition™ Robotic-Guidance Platform enables surgeons to arrange surgical procedures based on the patient's specific spinal anatomy. Surgeons can then carry out the plan in the operating room, employing navigation and robotic guidance to place spinal implants accurately. The MAZOR robot improves the accuracy and precision of surgeons' work and decreases the possibility of human error, especially in more difficult surgeries, by using minimally invasive approaches.
  • In August 2023, By early 2023, the University of Alabama in Birmingham had performed more than 20,000 robotic procedures. UAB Medicine, a leader in minimally invasive robotic surgery, is expanding its portfolio by acquiring a spine robot. UAB Medicine just received an ExcelsiusGPS spine robot from Globus Medical. UAB Hospital is Birmingham's only hospital that uses innovative technologies. Currently, the robot is used by the Department of Neurosurgery to implant instruments and treat degenerative spine disorders.

Spinal Surgical Robots Market Company Profile

  • Becton Dickson and Company *
    • Company Overview
    • Product Portfolio
    • Key Highlights
    • Financial Performance
    • Business Strategies
  • Omnicell Inc.
  • Baxter International Inc.
  • Capsa Healthcare
  • Yuyama Co Ltd.
  • Medictech Pharmacy Management Solutions
  • Mckesson Corporation
  • Touchpoint Medical Solutions
  • Tension Corporations
  • Pearson Medical Technologies LLC
  • RxSafe LLC
  • Cerner Corporation
  • ABB Robotics
  • KUKA AG
  • Talyst Systems LLC

“*” marked represents similar segmentation in other categories in the respective section.

FAQs

Spinal Surgical Robots Market Size was valued at USD 225.9 Million in 2024 and is expected to reach USD 714.6 Million by 2034 growing at a CAGR of 13.5%

The Spinal Surgical Robots Market is segmented into Product, Method, Application, End-User, and Region.

Factors driving the market include the increasing prevalence of spinal disorders and attention to better patient outcomes.

The Spinal Surgical Robots Market's restraints include high-cost procedures.

The Spinal Surgical Robots Market is segmented by region into North America, Asia Pacific, Europe, Latin America, and the Middle East and Africa. North America is expected to dominate the Market.

The key players operating the Spinal Surgical Robots Market include Becton Dickson and Company, Omnicell Inc., Baxter International Inc., Capsa Healthcare, Yuyama Co Ltd., Medictech Pharmacy Management Solutions, Mckesson Corporation, Touchpoint Medical Solutions, Tension Corporations, Pearson Medical Technologies LLC, RxSafe LLC, Cerner Corporation, ABB Robotics, KUKA AG, and Talyst Systems LLC.