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Fixed And Mobile C-Arms Market

The market for Fixed And Mobile C-Arms was estimated at $3.1 billion in 2025; it is anticipated to increase to $3.9 billion by 2030, with projections indicating growth to around $4.9 billion by 2035.

Report ID:DS1801061
Author:Debadatta Patel - Senior Consultant
Published Date:
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Life Science
Medical Device
Fixed And Mobile C-Arms
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Market Data
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Table of Contents

Global Fixed And Mobile C-Arms Market Outlook

Revenue, 2025

$3.1B

Forecast, 2035

$4.9B

CAGR, 2026 - 2035

4.5%

The Fixed And Mobile C-Arms industry revenue is expected to be around $3.1 billion in 2026 and expected to showcase growth with 4.5% CAGR between 2026 and 2035. Healthcare providers are giving greater priority to real time high resolution imaging during operations in hospitals and similar institutions. As a result of this increased focus, the long term importance of C-Arms for fixed and mobile use in the healthcare industry is being emphasised. Complex surgical procedures are supported by intraoperative imaging. Growing demand is being driven by the increasing number of procedures which are minimally invasive, the growing incidence of musculoskeletal and cardiovascular disorders and the rise in the number of hybrid operating rooms. In orthopaedics, trauma and cardiology procedures, nearly six out of ten dollars spent on imaging was for C-arms. The reliance on fixed and moveable C-arms in these region's is on the increase. This rise in use is down to these machines improving treatment success, reducing side effects and streamlining operations. In this scenario, the fixed C-arms continues to be the leading source of revenue with a predicted output of $2.64 billion in the year 2025. This dominance of fixed C-arms systems is reflective of the ongoing preference by busy imaging facilities for high throughput, fully integrated systems. C-arms which are both fixed and mobile incorporate an X ray generator and a flat panel detector with a C-shaped gantry.

These C-arms offer surgeons and medical staff the opportunity to perform real time imaging and digital imaging during procedures and surgery. Key features include flexible isocentric rotation for enhanced access to anatomical structures, software for the management of radiation dose, and 2D/3D as well as rotational X ray imaging capabilities. Additionally, the system is capable of integration with other surgical navigation systems and existing hospital IT systems to support precise image guided surgical techniques. Across orthopaedics and trauma, intraoperative imaging is indispensable in cardiovascular interventions, emergency care, general surgery and pain management where accurate fracture fixation and vascular visualisation is enabled by intraoperative imaging of devices. The trend in the market is characterised by the growing acceptance of mobile C-arms which are compact in size, these are used in out patient and day care clinics. There is also an increasing requirement for cone beam CT and three dimensional CT functionalities. Another trend is the integration of automation, intelligent workflow tools to increase productivity.

Fixed And Mobile C-Arms market outlook with forecast trends, drivers, opportunities, supply chain, and competition 2025-2035
Fixed And Mobile C-Arms Market Outlook

Market Key Insights

  • The Fixed And Mobile C-arms market is projected to grow from $3.1 billion in 2025 to $4.9 billion in 2035. This represents a CAGR of 4.5%, reflecting rising demand across Orthopedic Surgeries, Cardiovascular Interventions, and Pain Management Procedures.

  • Major industry players shaping this medical imaging devices market are GE Healthcare, Philips, and Siemens.

  • The U.S. and Germany will be the major market in the Fixed and Mobile Conferencing Arms sector, projected to grow at a compound annual rate of 3.1% to 4.1% from 2025 to 2030.

  • The countries of Brazil, India and the UAE are forecast to see the highest growth rates in the emerging markets with a compound annual growth rate ranging from 5% to 6.3%.

  • AI and ML have a substantial influence on the value chain of the US and German markets. The technology is predicted to raise the value of the Fixed and Mobile Consumer Arms industry by $65 million by 2030.

  • Between 2025 and 2035, the Fixed and Mobile C Arms market is predicted to be worth $1.7 billion. In this period, manufacturers who focus on the cardiovascular and pain management sectors are likely to have the largest share of the market.

  • With

    rising demand due to minimally invasive procedures, and

    Technological Enhancements Boosting Efficiency, Fixed And Mobile C-arms market to expand 55% between 2025 and 2035.

fixed and mobile c arms market size with pie charts of major and emerging country share, CAGR, trends for 2025 and 2032
Fixed And Mobile C-Arms - Country Share Analysis

Opportunities in the Fixed And Mobile C-Arms

Indias larger cardiac centres are establishing more cath labs and complex surgery units which has created an untapped market for C-arms and advanced fluoroscopy equipment. By 2030, revenue from worldwide fixed C arm systems is also expected to rise from $2.64 billion in 2025 to approximately $3.39 billion at a compound annual growth rate of 5.1%. Indian intraoperative imaging market growth rates for cardiac procedures are higher than this figure. In cities with high volume cardiac hospitals, premium Fixed And Mobile C-Arms with high heat capacity tubes and 3D road mapping will be used the most.

Growth Opportunities in North America and Asia Pacific

North America sees a high demand for C-arms used in both fixed and mobile environments, mainly due to a high number of orthopaedic surgical procedures and trauma interventions. This makes orthopaedics and trauma the applications driving demand for C-arms systems, with cardiovascular medicine the second most important sector. This is mainly in laboratories and hybrid operating rooms. Regional growth opportunities exist in the sale of premium mobile C-arms systems that provide 3D fluoroscopy, alongside low dose protocols for image taking, which are used in ambulatory surgical centers and in orthopaedic hospitals. Fixed C-arms integrated with navigation systems are also in demand, by orthopaedic hospitals that undertake complex spinal surgery and joint reconstruction. With the medical imaging market dominated by well established brands, companies are now seeking to differentiate their products through improvements in the software side of things such as workflow optimisation and AI technology for image analysis. With increasing stringent regulations regarding radiation safety along with the considerable revenue which may be recovered for patients undergoing minimally invasive surgical procedures and vascular interventions, there is significant support for a move to C-arms systems which offer improved functionality. There is further margin rich expansion potential through a focused strategy of tailored configurations, remote diagnostics and service contracts for pain management suites.
The adoption of cardiology x ray systems is increasing rapidly in the Asia Pacific. This is mainly because there is a rising need for cardiovascular treatments in the region, such as those involving coronary and peripheral arteries. The greatest potential for growth exists in the mid range mobile C-arm systems sector. These products must be affordable and capable for use in orthopedics, trauma, general surgery, and pain management. In addition, there is also a requirement for fixed C-arm systems which can be used in a variety of settings. The competitive landscape for heavy trucks is highly fragmented with a variety of manufacturers competing in the market. The main competitors are original equipment manufacturers who are competing against regional manufacturers that keep their costs low. As a result, there is room for manufacturers who can offer trucks with specific advantages, including reliability in harsh conditions, easy to use controls and comprehensive maintenance support. A significant factor contributing to the growth of the market is the investment made by the government in hospitals and the building of infrastructure. Private hospital chains are also expanding. Moreover, the trend of adopting the minimally invasive surgical technology is growing. This trend is also supported by the fact that surgeons are getting to know the image guided intervention techniques. Organisations can gain a competitive edge by manufacturing or assembling products in a particular region, offering flexible finance options to smaller hospitals and training health staff in clinical specialties.

Market Dynamics and Supply Chain

01

Driver: Growing Demand for Minimally Invasive Surgeries and Advanced Imaging Integration Boosting Market Growth

The fixed and mobile C‑arms market is also driven by the rising adoption of minimally invasive surgeries, including orthopedic, cardiovascular, and pain management procedures, which require real‑time fluoroscopic imaging to ensure precision and patient safety. Surgeons increasingly prefer minimally invasive approaches to reduce operative time, blood loss, and recovery periods. Simultaneously, integration of advanced imaging technologies such as 3D reconstruction, digital subtraction angiography, and flat-panel detectors enhances procedural accuracy, reduces radiation exposure, and provides superior image quality. These advancements enable clinicians to perform complex procedures with confidence while improving patient outcomes. Leading players such as Siemens Healthineers, GE Healthcare, Philips Healthcare, and Ziehm Imaging are also capitalizing on these trends by offering hybrid C-arm systems that combine mobility, high-resolution imaging, and software-driven guidance, further fueling market expansion. The synergy between procedure innovation and imaging technology adoption continues to support global market growth and clinical acceptance.
The rise of portable, compact, and ergonomically designed mobile C-arm systems is also a significant market driver, particularly in outpatient and ambulatory surgical centers. These systems allow flexible positioning, rapid setup, and real-time imaging in diverse clinical settings. Enhanced software interfaces, wireless connectivity, and dose-reduction technologies further improve operational efficiency and safety. Hospitals and clinics increasingly adopt these devices to optimize workflow, reduce procedural complications, and extend imaging capabilities beyond conventional operating rooms, making them a preferred solution for dynamic, multi-specialty applications.
02

Restraint: High Cost of Acquisition and Maintenance Limits Adoption in Budget‑Constrained Healthcare Facilities

The fixed and mobile C‑arms market is significantly restrained by the high upfront cost of equipment and ongoing maintenance expenses, which can deter adoption by smaller hospitals, outpatient clinics, and facilities in emerging economies. Advanced imaging systems with flat‑panel detectors and 3D capabilities command premium pricing. For example, rural healthcare centers may delay upgrades or opt for basic X‑ray units, reducing overall market penetration and slowing revenue growth in cost‑sensitive regions
03

Opportunity: Hybrid operating room deployments in North American teaching hospitals favoring premium Fixed And Mobile C-Arms and Expanding outpatient orthopedic services in European private clinics accelerating Mobile C-arm demand

There is a noticeable trend of North American teaching hospitals investing more in hybrid ORs, these are used for complex procedures that are minimally invasive. These procedures include cardiovascular and oncology operations, and they prefer high end Fixed And Mobile C-Arms. These institutions are looking for imaging systems that work intra operatively in multiple formats and can be easily used with other surgical tools and monitors. For cardiac and neurovascular procedures, biplane fixed C-arms are expected to be the primary imaging systems used. Ceiling mounted mobile C-arms will be used in the case of trauma and vascular studies, as well as perfusion imaging. Companies which develop a clinical protocol in conjunction with a long term technology refresh contract will capture a disproportionate share of the market.
Growing numbers of European private clinics are opting to carry out elective orthopaedic and spinal surgery as day cases, leading to a requirement for mobile C-arms which are compact in design. The mobile C-arm market is expected to be worth between $0.50 billion in 2025 and $0.52 billion by 2030; a predicted rise of 1.04% per year. Penetration in day surgery clinics is so far still quite low. Of these, mobile c arms designed for orthopaedic and trauma care procedures in extremity and trauma as well as pain management will see the greatest growth in France, Germany, Italy and hospital groups.
04

Challenge: Regulatory Complexities and Radiation Safety Concerns Slow Technology Deployment

Strict regulatory standards for medical imaging devices and radiation safety requirements present ongoing challenges for fixed and mobile C‑arm manufacturers. Compliance with varying regional regulations increases development costs and extends time to market. Additionally, concerns about operator and patient exposure can limit clinical adoption of high‑intensity imaging modes. For instance, facilities may restrict usage or require specialized training, dampening demand and impacting purchase cycles and operational utilization.

Supply Chain Landscape

1

Imaging Components

Varian Medical SystemsThales GroupToshiba Electron Tubes & Devices
2

C-Arm Imaging Systems

GE HealthCareSiemens Healthineers AGKoninklijke Philips N.V
3

Intraoperative Imaging

Shimadzu CorporationMedtronicCanon Medical Systems
4

End-Use

Interventional radiology and fluoroscopy suitesOrthopedic and surgical imaging centers
Fixed And Mobile C-Arms - Supply Chain

Use Cases of Fixed And Mobile C-Arms in Orthopedic Surgeries & Pain Management Procedures

Orthopedic Surgeries : In orthopedic surgeries, fixed and mobile C‑arm imaging systems provide real‑time fluoroscopic visualization that is critical for accurately placing implants, guiding fracture fixation, and confirming joint alignment during procedures like spinal fusion and hip or knee replacement. Mobile C‑arms are especially prevalent in orthopedic and trauma centers due to their flexibility and portability, adapting quickly to varied surgical suites and outpatient settings, while fixed systems provide high‑resolution stability in hybrid operating rooms. Their use improves precision, reduces operative time, and enhances patient outcomes in bone‑related interventions.
Cardiovascular Interventions : In cardiovascular interventions, fixed C‑arm systems dominate within catheterization labs and hybrid ORs, delivering continuous, high‑resolution fluoroscopic imaging essential for guiding angioplasty, stent placement, and complex structural heart procedures. These systems integrate seamlessly with advanced imaging software and surgical navigation tools to provide clinicians with detailed visualization of vascular anatomy. The enhanced precision and real‑time guidance from fixed C‑arms reduce procedural risks and improve clinical outcomes in interventional cardiology.
Pain Management Procedures : For pain management procedures such as epidural injections and nerve blocks, mobile C‑arms are most frequently used due to their compact design and quick setup, which suits outpatient clinics and ambulatory surgical centers. They offer real‑time fluoroscopic guidance that helps specialists accurately target injections, reducing complications and improving procedural success rates. Their portability and ease of use make mobile systems a practical choice in diverse clinical environments where flexibility and efficiency are priorities.

Recent Developments

The fixed and mobile C‑arms market is evolving with strategic emphasis on hybrid operating room integration and advanced imaging capabilities like 3D navigation and flat‑panel detectors, enhancing intraoperative visualization for orthopedic, cardiovascular, and pain management procedures. A key trend is the shift toward digital fluoroscopy and AI‑enhanced image processing, which improves procedural accuracy and reduces radiation exposure. Manufacturers are expanding product portfolios and investing in workflow integration to meet demand for versatile, high‑performance systems in modern surgical suites.

February 2024 : Philips officially introduced this advanced motorized mobile C‑arm system with enhanced image quality and flexibility for surgical and vascular procedures.
October 2025 : Royal Philips publicly announced that its Zenition mobile C‑arm platform reached 5,000 installations worldwide at Kolín Regional Hospital in the Czech Republic, demonstrating widespread adoption in surgical and interventional imaging
March 2025 : Siemens Healthineers received U.S. FDA clearance for its robotic, self‑driving CIARTIC Move C‑arm, automating intraoperative imaging and enhancing workflow efficiency for surgical teams.

Impact of Industry Transitions on the Fixed And Mobile C-Arms Market

As a core segment of the Medical Device industry, the Fixed And Mobile C-Arms market develops in line with broader industry shifts. Over recent years, transitions such as Incorporation of AI and ML and Shift towards Hybrid Operating Rooms have redefined priorities across the Medical Device sector, influencing how the Fixed And Mobile C-Arms market evolves in terms of demand, applications and competitive dynamics. These transitions highlight the structural changes shaping long-term growth opportunities.
01

Incorporation of AI and ML

The integration of AI and ML is fast becoming a central aspect of Fixed and Mobile Communications systems in the US and Germany. There, by the year 2030, industry revenues are forecast to rise by a further 65 million USD. Advanced diagnostic and image analysis software is being integrated into C-arm imaging systems by their manufacturers to improve the accuracy of procedures, decrease the amount of radiation used and to streamline workflows in orthopaedic, cardiovascular and surgical procedures that involve in body imaging. This shift is not only raising performance expectations for both mobile C-arms and fixed C-arms but is also causing a redistribution of value in the industry, as this value moves from hardware to data and analytical tools. With hospitals focusing on intelligent fluoroscopy technology, they can enhance both the efficiency of their operating rooms and patient care. Intelligent C-Arms, whether they are fixed or mobile, are a key factor in hospital purchasing decisions and their long term medical technology strategies.
02

Shift towards Hybrid Operating Rooms

The fixed and mobile C‑arms industry is transitioning toward hybrid operating rooms, which integrate advanced imaging technology from fixed C‑arms with conventional surgical equipment. This shift enables real-time, high-resolution fluoroscopic and 3D imaging during complex procedures such as cardiac interventions, orthopedic reconstructions, and neurovascular surgeries. Hospitals and specialty surgical centers benefit from improved procedural precision, reduced operative times, and enhanced patient outcomes. The trend is also impacting hospital infrastructure, medical device manufacturing, and surgical workflow design, as facilities invest in larger, multifunctional operating theatres and compatible imaging systems. For example, orthopedic and cardiovascular departments are increasingly adopting hybrid ORs to consolidate multiple interventions in a single room, optimize staff utilization, and support minimally invasive procedures, driving demand for advanced fixed and mobile C-arm solutions.