Open System MRI Market - Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028 Segmented by Resolution (low-field scanner, mid-field scanner, and high-field scanner), By Application (neurology, gastroenterology, oncology, cardiology, and other applications), and By Region, Competition Forecast
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 CustomizationOpen System MRI Market - Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028 Segmented by Resolution (low-field scanner, mid-field scanner, and high-field scanner), By Application (neurology, gastroenterology, oncology, cardiology, and other applications), and By Region, Competition Forecast
| Forecast Period | 2024-2028 |
| Market Size (2022) | 1.35 billion |
| CAGR (2023-2028) | 6.40% |
| Fastest Growing Segment | Neurology |
| Largest Market | North America |
Market Overview
Global open system MRI Market has valued at USD 1.35 billion in 2022 and is anticipated to witness an impressive growth in the forecast period with a CAGR of 6.40% through 2028.
Key Market Drivers
Advancements in MRI Technology
Increasing the magnetic field strength of MRI machines has led to improved signal-to-noise ratios and higher-resolution images. High-field MRI machines, such as 3 Tesla (3T) and 7 Tesla (7T) scanners, are now more widely found at and provide superior image quality for various applications. The development of faster imaging techniques, such as parallel imaging and compressed sensing, has significantly reduced scan times. This is particularly beneficial for pediatric and claustrophobic patients and improves overall patient comfort. Functional MRI allows researchers and clinicians to visualize and study brain activity in real-time. It is widely used in neuroscience to map brain function and identify regions associated with specific tasks or conditions. Diffusion-Weighted Imaging (DWI) is essential for evaluating tissue microstructure, particularly in the brain. It is valuable for detecting and characterizing tumors, stroke, and other neurological conditions. Perfusion MRI measures blood flow in tissue, providing valuable information for assessing tissue viability in stroke, tumors, and vascular conditions. Magnetic Resonance Angiography (MRA) techniques have evolved to provide detailed images of blood vessels, aiding in the diagnosis of vascular diseases, such as aneurysms and stenosis. MR spectroscopy allows for the measurement of chemical concentrations in tissue. It is used to study brain metabolites and assess tissue health in various organs. The development of advanced radiofrequency coils and hardware components has improved signal sensitivity and overall image quality. These innovations have enabled the creation of specialized coils for specific applications and anatomical regions.
Techniques for motion correction and artifact reduction have become increasingly sophisticated, reducing image distortions caused by patient motion or other factors. In addition to traditional hydrogen-based imaging, MRI can now utilize other nuclei like carbon-13, fluorine-19, and sodium-23 for specialized applications, such as metabolic and cellular imaging. AI and machine learning algorithms are being integrated into MRI systems to automate image analysis, improve image reconstruction, and assist in disease detection and diagnosis. Quantitative MRI techniques provide precise measurements of tissue properties, such as T1 and T2 relaxation times. This is crucial for characterizing tissue and monitoring treatment response. Functional Connectivity MRI (fcMRI) is used to study the functional connectivity of different brain regions and networks. It has applications in understanding brain disorders and cognitive processes. Open MRI systems and wide-bore designs have been developed to accommodate claustrophobic and larger patients, improving patient comfort and accessibility. Combining MRI with other imaging modalities, such as PET (Positron Emission Tomography) or CT (Computed Tomography), enables multimodal imaging, enhancing diagnostic capabilities and treatment planning. This factor will help in the development of
Increasing Aging Population
As people age, they are more susceptible to a range of medical conditions that often require diagnostic imaging. These conditions may include cardiovascular diseases, musculoskeletal issues, neurodegenerative disorders, and various types of cancer. Open system MRI is particularly beneficial for older adults who may have mobility issues or experience discomfort in traditional closed MRI machines. Cancer is more common among older individuals. MRI is a valuable tool for cancer screening, staging, and monitoring treatment response. It is often used to detect and assess tumors in various parts of the body, including the breast, prostate, and brain. Conditions such as Alzheimer's disease, Parkinson's disease, and stroke are more prevalent in the elderly population. MRI plays a crucial role in diagnosing and monitoring these neurological disorders, providing detailed images of brain structures and abnormalities. Aging often leads to musculoskeletal problems, including joint issues, fractures, and degenerative spine conditions. Open system MRI is helpful for assessing these conditions, providing orthopedic specialists with the necessary information for treatment planning. Heart disease and vascular conditions become more common with age.
Cardiac MRI, which can be performed in open systems, helps diagnose and evaluate heart-related issues, such as coronary artery disease, heart valve problems, and cardiomyopathies. Open system MRI machines are better suited for older adults who may experience anxiety or claustrophobia in traditional closed machines. Enhanced patient comfort in open MRI systems can lead to higher compliance with medical imaging recommendations. As individuals age, there is a growing emphasis on early disease detection and preventive healthcare. MRI is a valuable tool for early diagnosis, helping healthcare providers identify conditions at an earlier, more treatable stage. Many countries have expanded healthcare access for older adults through government programs like Medicare. This increased access to healthcare services, including diagnostic imaging, contributes to higher MRI utilization among the elderly. Improved healthcare and medical advancements have led to longer life expectancies. As a result, the aging population continues to grow, further driving the demand for medical services, including diagnostic imaging. Aging-related research and clinical studies often require MRI for data collection and analysis. This contributes to the ongoing demand for MRI services in older populations. This factor will pace up the demand of
Growing Awareness and Early Diagnosis
Early diagnosis is essential for effectively treating and managing various medical conditions. Open MRI systems are preferred for some patients, including those who experience claustrophobia or anxiety, making them more likely to undergo recommended diagnostic imaging. As a result, patients are more inclined to seek early medical evaluation and diagnosis when open MRI options are found at. Open MRI systems offer a more open and less restrictive environment compared to traditional closed MRI machines. This improved comfort can lead to higher patient acceptance and compliance with recommended screenings and diagnostic tests, including routine health check-ups and early disease screenings. Children, in particular, benefit from open MRI systems because they are less likely to feel anxious or claustrophobic during the procedure. Parents are more willing to have their children undergo MRI scans when open systems are found at, facilitating early diagnosis and treatment of pediatric conditions. Growing awareness campaigns and health education initiatives help individuals understand the importance of preventive healthcare and early disease detection. Patients are more likely to proactively seek MRI screenings when they are informed about the benefits of early diagnosis. Ongoing advancements in MRI technology have led to faster scan times and improved image quality. These improvements make MRI more accessible and reduce the time and discomfort associated with the procedure, encouraging individuals to opt for early diagnostic imaging. Healthcare providers play a critical role in encouraging patients to undergo necessary diagnostic imaging tests. When open MRI systems are found at, healthcare providers may be more inclined to recommend MRI scans, knowing that patients are more likely to comply due to the improved patient experience.
The shift toward preventive healthcare and wellness check-ups encourages individuals to undergo regular screenings, including MRI, to detect potential health issues before they become more serious or difficult to treat. Early detection of cancer through MRI is vital for improving survival rates and treatment outcomes. Patients who are aware of the benefits of early cancer screening are more likely to undergo MRI examinations. For individuals with chronic diseases such as multiple sclerosis, rheumatoid arthritis, or Crohn's disease, open MRI systems can be preferred due to their comfort and accessibility. Regular MRI monitoring is essential for managing these conditions effectively. Open MRI systems are also beneficial for patients with mental health conditions who may experience anxiety or panic attacks in enclosed spaces. These patients are more likely to seek mental health-related MRI evaluations when open MRI options are found at. The healthcare industry's shift toward patient-centered care puts a strong emphasis on patient comfort and choice. Open MRI systems align with this approach by providing patients with more comfortable imaging options. Open MRI systems can sometimes reduce the need for sedation in patients who may otherwise be unable to tolerate a closed MRI. This contributes to early diagnosis by eliminating the need for sedation-related delays. This factor will accelerate the demand of the Global open system MRI Market.
Key Market Challenges
Market Saturation
In regions with mature healthcare markets, including many developed countries, there is already a significant installed base of medical imaging equipment, including MRI systems. Hospitals and healthcare facilities in these areas may already have enough MRI machines to meet the current demand for diagnostic imaging.
Maintenance and Service Costs
MRI machines are complex and expensive pieces of medical equipment. The initial acquisition cost is substantial, and this can strain the budget of healthcare providers. While the initial purchase is a one-time expense, it's essential to factor in ongoing maintenance and service costs over the lifespan of the MRI system. MRI systems require regular preventive maintenance to ensure they function correctly and produce accurate imaging results. Routine maintenance activities include calibration, system checks, and software updates. These maintenance tasks are critical for preventing issues and ensuring patient safety. Like all machinery, MRI systems can experience unexpected breakdowns or malfunctions. Unscheduled repairs can be costly and result in downtime, impacting patient scheduling and the overall efficiency of the healthcare facility. MRI maintenance and repair require specialized knowledge and skills. Healthcare facilities must invest in training and certifying technicians to perform maintenance and repairs effectively. This training incurs costs and time commitments. MRI systems are composed of numerous intricate parts and components, including magnets, coils, and electronics. Replacing or repairing these components can be expensive, and the availability of specialized parts may affect service timelines and costs. Many healthcare providers enter service contracts with MRI manufacturers or third-party service providers to cover routine maintenance and repairs. These contracts can vary widely in terms of coverage and cost. High-quality service contracts can be expensive but provide peace of mind.
Key Market Trends
Wide-Bore Open MRI
Wide-bore open MRI systems feature a larger and more spacious bore (the tunnel-like part of the machine where the patient lies) compared to traditional closed MRI machines. This design reduces feelings of claustrophobia and anxiety in patients, enhancing their overall comfort during the imaging procedure. The wider bore of these MRI systems can comfortably accommodate a broader range of patients, including those who are larger in size, have mobility issues, or experience discomfort in traditional closed MRI machines. This inclusivity is essential for providing equitable healthcare services. Wide-bore open MRI systems are particularly well-suited for imaging pediatric and geriatric patients who may have difficulty remaining still during the scan. The more open design allows parents or caregivers to be present during pediatric scans, helping to reduce anxiety in young patients. The spacious environment of wide-bore open MRI systems makes them ideal for musculoskeletal imaging. Patients can be imaged in weight-bearing positions or with extended limbs, enabling better visualization of orthopedic conditions and injuries. The wide-bore design offers an unrestricted field of view for patients, allowing them to see around them during the scan. This feature can be comforting for patients who may feel anxious when enclosed in a traditional MRI machine.
Segmental Insights
Resolution Insights
In 2022, the Global Open System MRI Market largest share was dominated by High-Field Scanner segment in the forecast period and is predicted to continue expanding over the coming years.
Application Insights
In 2022, the Global Open System MRI Market largest share was dominated by Cardiology segment in the forecast period and is predicted to continue expanding over the coming years.
Regional Insights
The North America region dominates the Global Open System MRI Market in 2022. This is due to the rise in heart and brain conditions. In addition, the region's high prevalence of cardiovascular (CVD) and brain illnesses is fueling market expansion in the area. The expansion of the market under consideration is anticipated to be fueled by the increase in MRI diagnostic procedures in the United States. For instance, a July 2022 Mayo Clinic article reported a 40% increase in MRI diagnostic operations in April 2022 compared to the same month the year prior. As a result, the rise in diagnostic procedures is probably what will spur the most market expansion in the region. The introduction of new items is another factor fueling the expansion of this industry in the area. For instance, in November 2021, Fujifilm Healthcare America Health Corporation unveiled the Velocity MRI System.
Recent Developments
- In January 2023, EsaoteNorth America, Inc announced the launch of The Magnifico Vet MRI system, anovel imaging solution specifically designed to deliver diagnostic efficacy ina range of veterinary institutions. The MagnificoTM Vet is a powerful,veterinarian-focused scanning breakthrough designed for swiftly and convenientlyimaging animals of all sizes. There has never been a simpler way to performveterinary MRI scanning, from the user-friendly interface and simple patientpositioning to the quick data entry and patient retrieval. The environmentally friendly MagnificoTM Vet is a masterpiece ofpractical design ready to offer superb diagnostic images. It is created withsustainable green permanent-magnet technology, is cryogen-free, and consumes agreat deal less power than superconducting systems.
- In July 2022, At ECR 2022, Canon Medical announced the Vantage Fortian.The new MRI system has cutting-edge workflow strategies, image enhancement, andexpedited scan technologies, all of which help shorten the time needed for MRItreatments. Vantage Fortian is made to let patients move from the waiting areato the scan room and then home. It has a mobile interface that enables remotemonitoring and smooth data integration, as well as in-room scan assisttechnology that automatically monitors coils and adjusts patient position.When a process calls forhigh-resolution photos, a significantly expedited scan time, or even at once,the Vantage Fortian uses the Advanced intelligent Clear-IQ Engine (AiCE)technology, which uses deep learning reconstruction (DLR) technology to givenoise-free images. 96% of all MR operations for 2D and 3D acquisition arecovered by AiCE, which is appropriate for all anatomies.
Key Market Players
- GE Healthcare
- Hitachi Medical Corporation
- Philips Healthcare
- Siemens Healthcare
- ESAOTE SA
- Canon Medical Systems Corporation
- Hologic Inc.
- Nordion Inc.
- Onex Corporation (Carestream Health)
- Shimadzu Corporation
- Toshiba Corporation
- Barco N.V.
| By Resolution | By Application | By Region | By Region |
| Low-field scanner Mid-field scanner High-field scanner | Neurology Gastroenterology Oncology Cardiology Other applications | North America Asia-Pacific Europe South America Middle East & Africa | Saudi Arabia UAE Qatar Kuwait Bahrain Rest of Middle East |
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