How Has the Radiosurgery And Radiotherapy Robotics Market Size Evolved in Recent Years?
The radiosurgery and radiotherapy robotics market has seen considerable growth due to a variety of factors.
• In recent years, there has been consistent growth in the market size of radiosurgery and radiotherapy robotics. It is projected that the market will increase from $4.36 billion in 2024 to $4.58 billion in 2025, exhibiting a compound annual growth rate (CAGR) of 4.9%.
The augmentation seen during the historical period could be accounted for by factors such as the widespread occurrence of cancer, a growing demand for less invasive surgical procedures, a rise in funds allocated for medical robotic research, and the global development of healthcare infrastructure.
What are the Market Size and Expected Growth Rates for the Radiosurgery And Radiotherapy Robotics Market?
The radiosurgery and radiotherapy robotics market is expected to maintain its strong growth trajectory in upcoming years.
• The market for robotics in radiosurgery and radiotherapy is projected to show robust expansion over the next few years. The market value is set to reach $5.75 billion by 2029, with a compound annual growth rate (CAGR) of 5.8%.
This anticipated growth during the forecast period is due to factors such as an aging demographic, increased adoption of robotic technology, high efficacy in treating tumors, governmental backing of radiosurgery, and heightened awareness of the advantages of radiosurgery and radiotherapy robots. Noteworthy trends during this projection period include artificial intelligence-assisted treatment planning, radiomics and analysis of large data, remote consultations combined with telesurgery, integration of nanotechnology, and advancements in the technical aspects of radiosurgery robotics.
Which Key Drivers Are Propelling The Radiosurgery And Radiotherapy Robotics Market's Growth?
The rapid rise in cancer cases is anticipated to fuel the development of the radiosurgery and radiotherapy robotics market. Cancer, a group of diseases that can occur in almost any organ or tissue where abnormal cells grow unchecked, extending beyond their normal boundaries, and either disseminate to other organs or infiltrate surrounding body parts. Radiosurgery and radiotherapy robotics are pivotal in the treatment of cancer, as they ensure high geometric accuracy, support precise placement and imaging, and offer state-of-the-art therapy options for a variety of cancers, such as pancreatic cancer. For example, in February 2024, per the report from the World Health Organization, a Switzerland-based intergovernmental organization, the burden of cancer is predicted to rise to over 35 million by 2050, representing a 77% surge from the estimated 20 million in 2022. Lung cancer was the most frequently occurring cancer worldwide, with 2.5 million new cases or 12.4% of all new cases. This was followed by breast cancer in women (2.3 million cases, 11.6%), colorectal cancer (1.9 million, 9.6%), prostate cancer (1.5 million, 7.3%) and stomach cancer (970,000, 4.9%). As a result, the escalating occurrence of cancer is driving the expansion of the radiosurgery and radiotherapy robotics market. The rising preference for minimally invasive procedures is likely to stimulate the growth of the radiosurgery and radiotherapy robotics market. Minimally invasive procedures (MIPs) are surgical procedures performed through tiny incisions in the body with the help of specialized equipment and cameras, which are introduced through these incisions. Radiosurgery and radiotherapy robots are employed in minimally invasive procedures to deliver radiation therapy to tumors more precisely and consistently as compared to conventional methods because robots can maneuver with greater accuracy and consistency than humans. For example, in February 2024, as stated by the American Academy of Facial Plastic and Reconstructive Surgery, a US-based non-profit organization, in 2023, a significant majority, specifically 83%, of medical procedures performed were minimally invasive, while the remaining 17% were conventional surgical procedures. As such, the increasing preference for minimally invasive methods is catalyzing the growth of the radiosurgery and radiotherapy robotics market.
What Are The Key Segments Within The Global Radiosurgery And Radiotherapy Robotics Market?
The radiosurgery and radiotherapy robotics market covered in this report is segmented –
1) By Product: X-ray Based, Gamma-ray Based, Proton-beam Based
2) By Application: External Beam Radiotherapy, Internal Beam Radiotherapy Or Brachytherapy
3) By End Use: Hospitals, Clinics, Other End Users
Subsegments:
1) By X-ray Based: Linear Accelerators (LINAC), Stereotactic X-Ray Systems, Image-Guided Radiation Therapy (IGRT) Systems
2) By Gamma-Ray Based: Gamma Knife Systems, Stereotactic Radiosurgery (SRS) Systems, Radioactive Isotope Systems
3) By Proton-Beam Based: Proton Therapy Systems, Pencil Beam Scanning Systems, Fixed Beam Proton Systems
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What Trends Are Reshaping The Future Of The Radiosurgery And Radiotherapy Robotics Market?
Leading businesses in the radiosurgery and radiotherapy robotics sector are concentrated on integrating novel technological solutions, such as dynamic surface positioning and monitoring systems, to maintain their market standing. This refers to a patient monitoring system for surface-guided radiation therapy (SGRT), which uses a thermal-surface camera to observe patient positioning and track movements during treatment procedures. For example, Brainlab, a Germany-based firm specializing in radiotherapy and radiosurgery software and hardware development, introduced the ExacTrac Dynamic Surface Positioning and Monitoring System in May 2023. This one-camera unit system ensures uniformity across the radiation department and facilitates uninterrupted patient observation during breath-hold treatments. The primary objective of ExacTrac Dynamic Surface is to guarantee department-wide consistency and ensure precise tracking. Clinicians can easily adapt to the ExacTrac Dynamic Surface on any linac due to its singular, user-friendly interface and standardized workflow patterns.
Who Are the Key Players In The Radiosurgery And Radiotherapy Robotics Market?
Major companies operating in the radiosurgery and radiotherapy robotics market are:
• Mitsubishi Electric Corporation
• Hitachi Ltd.
• Siemens Healthineers AG
• Medtronic PLC
• Elekta AB
• Shinva Medical Instrument Co. Ltd.
• Neusoft Medical Systems Co. Ltd.
• Accuray Incorporated
• Sumitomo Heavy Industries Ltd.
• Ion Beam Applications SA
• Brainlab AG
• ViewRay Inc.
• Zhuhai Hokai Medical Instruments Co. Ltd.
• RaySearch Laboratories AB
• Mevion Medical Systems Inc.
• Vision Rt Limited
• Sun Nuclear Corporation
• Panacea Medical Technologies Pvt. Ltd.
• C-Rad AB
• Radiadyne LLC
• ProTom International Holding Corporation
• CIVCO Radiotherapy
• Standard Imaging Inc.
• Intraop Medical Corporation
• Best Medical International Inc.
• Modus Medical Devices Inc.
• Mirada Medical Ltd.
What Are The Regional Insights Into The Radiosurgery And Radiotherapy Robotics Market?
North America was the largest region in the radiosurgery and radiotherapy robotics market in 2024. The regions covered in radiosurgery and radiotherapy robotics market report are Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East and Africa.
