Robotic surgery minimally invasive procedures are transforming modern healthcare by improving surgical precision, reducing patient recovery times, and minimizing complications.
In 2024, minimally invasive robotic surgery (MIRS) accounted for more than half of the global surgical robotics and navigation (RNAV) market, making it the dominant force in robotic-assisted procedures.
As demand for less invasive surgeries continues to grow, the market is projected to expand significantly.
The global surgical robotics market is expected to grow by more than half by 2031, driven by technological advancements, increasing adoption in hospitals, and the shift toward AI-assisted surgical techniques.
Table of Contents
➜ What Is Minimally Invasive Robotic Surgery?
➜ The Growing Market for Robotic Surgery
➜ Most Common Robotic Surgery Procedures
➜ Advantages of Robotic Surgery
➜ Challenges & Barriers to Adoption
➜ The Future of Minimally Invasive Robotic Surgery
Key Takeaways
- Minimally invasive robotic surgery dominates the market, accounting for a major part of total RNAV revenue.
- The market is expected to reach $30 billion by 2031, driven by advancements in AI and automation.
- Robotic-assisted procedures are widely used in urology, gynecology, general surgery, and orthopedics.
- Benefits of robotic surgery include enhanced precision, shorter hospital stays, and fewer complications.
- Despite financial and regulatory barriers, hospitals are increasingly adopting leasing models and pay-per-use options to offset costs.
What Is Minimally Invasive Robotic Surgery?
Minimally invasive robotic surgery (MIRS) is an advanced surgical technique that enhances traditional minimally invasive procedures through robotic-assisted technology.
MIRS represents a significant advancement in surgical techniques, offering numerous benefits to both patients and surgeons by improving the accuracy, safety, and outcomes of various surgical procedures.
These systems provide surgeons with superior control, high-definition 3D visualization, and AI-powered assistance, allowing for greater precision and fewer complications compared to conventional surgery.
How does minimally invasive robotic surgery work?
Unlike traditional open surgery, MIRS involves small incisions, robotic instruments, and real-time imaging to optimize surgical outcomes. This results in less blood loss, reduced postoperative pain, and faster recovery times. The precision of robotic instruments also minimizes damage to surrounding tissues, enhancing overall surgical outcomes.
Is robotic surgery safe?
Although various factors, such as the patient’s overall health, operation conditions, and type of procedures, may influence the successful outcome, the general success rate for robot-assisted surgery ranges from 94% to 100%, making it a mostly safe procedure.
The Growing Market for Robotic Surgery
- Minimally invasive robotic surgery accounts for 70% of the RNAV market, making it the leading segment.
- The global surgical robotics market is projected to grow at a CAGR of 15.7%, reaching $30 billion by 2031.
- Developed markets (North America, Europe) are maturing, but emerging regions (Middle East, Latin America, Asia-Pacific) are seeing rapid adoption due to rising healthcare investments.
- Flexible pricing models, such as leasing and pay-per-use, are making robotic-assisted surgery more accessible to hospitals and surgical centers.
Most Common Robotic Surgery Procedures
Minimally invasive robotic surgery is widely adopted across multiple surgical specialties. Some of the most common procedures include:
- Robotic Prostatectomy – A standard treatment for prostate cancer, offering greater precision and fewer side effects.
- Robotic Hysterectomy – A preferred gynecological surgery due to its minimally invasive nature.
- Robotic Hernia Repair – Enhances abdominal wall reconstruction with better accuracy and shorter recovery times.
- Robotic Colorectal Surgery – Used for colorectal cancer and gastrointestinal disorders.
- Robotic-Assisted Orthopedic Surgery – Increasingly utilized for knee and hip replacements.
Advantages of Robotic Surgery
Robotic-assisted surgery provides several key benefits over both traditional open surgery and standard minimally invasive procedures:
1. Increased Precision and Accuracy
AI-driven robotic systems enhance surgeon dexterity, real-time visualization, and motion scaling, leading to greater precision in complex procedures.
2. Faster Recovery and Shorter Hospital Stays
Studies show that patients recover 40-50% faster following robotic-assisted surgery compared to traditional open procedures.
3. Lower Risk of Complications
Robotic-assisted surgery reduces postoperative infections, surgical trauma, and blood loss, improving patient outcomes.
Challenges and Barriers to Adoption
Despite its rapid expansion, minimally invasive robotic surgery faces key adoption barriers:
- High Initial Costs – Robotic systems cost between $1 million to $2.5 million, with annual maintenance fees exceeding $200,000.
- Insurance Limitations – Many insurance companies still do not fully reimburse robotic-assisted procedures.
- Surgeon Training & Learning Curve – Hospitals must invest in specialized training programs, which can slow widespread adoption.
The Future of Minimally Invasive Robotic Surgery
Minimally invasive robotic surgery is set to expand further with the integration of artificial intelligence, automation, and next-generation robotic platforms.
Key trends include:
- AI-Powered Robotics – Enhanced decision-making through machine learning and real-time analytics.
- Compact, Cost-Effective Systems – New robotic platforms aim to reduce costs and increase accessibility.
- Expansion into New Specialties – Robotic-assisted surgery is growing in vascular, neurosurgical, and spinal procedures.
Get the Full Report Today
To explore the detailed analysis and data on the Global Surgical Robotics and Navigation Market, download the full report. Gain valuable insights and informed perspectives to increase your revenue and improve your strategic approach.
Get the full report today and stay ahead in your industry.
