MRI Motion Tracking System Market by Type of Technology (Camera-based Systems, Inertial Measurement Units (IMUs), Hybrid Systems), by Application (Neuroimaging, Cardiovascular Imaging, Abdominal and Pelvic Imaging, Musculoskeletal Imaging), by End Users (Hospitals and Clinics, Research Institutions), by Patient Age Group (Pediatric, Adult), by MRI Machine Compatiblity (Closed MRI Systems, Open MRI Systems), by Region (North America, Europe, Asia Pacific, Latin America, Middle East & Africa): Global Opportunity Analysis and Industry Forecast, 2023-2031

The Global MRI Motion Tracking System Market was valued at $XX million in 2022. It is projected to grow at a CAGR of XX% from 2023 to 2031 and reach more than $XX million by the end of 2031. 

MRI Motion Tracking System Market Analysis:

The MRI motion tracker system is a camera integrated into an MRI Scanner in order to detect the motion of a patient during an MRI scan. The LCD monitor features a touchscreen function to offer a more precise choice of selection. Moreover, several market players are also introducing an MRI motion tracker system equipped with programmable hot spots. When the patient moves, the software immediately alerts the technician with an audio alert and an onscreen notification. MRI has always been more sensitive to patient mobility than other imaging modalities like ultrasound or computed tomography. This is primarily because most MR imaging sequences take a long time to gather enough data to create an image. The majority of physiological motions, such as involuntary motions, gastrointestinal peristalsis, cardiac and respiratory motion, vascular pulsation, and blood and CSF flow, occur over much longer timescales than this.

The effects of motion on the image, such as blurring and ghosting, have been well-known since the early days of MRI. The motion tracker is based on computer vision technology and continuously scans the patient's face via a synchronized light modulator with the camera while employing a structured light interface scanner. Comparing this method to maker-based ones, the clinical preparation time is shorter because optical markers are not attached.

Additionally, since there is no need for patient engagement, patient comfort is not compromised. Additionally, it prevents tracking failure brought by slipping markers. Real patients can be tracked in motion by the system, and a tracking validity parameter (TVP) is utilized to make sure the tracking is accurate and that the incorrect tracking is not being used to correct motion. MRI is widely being used in order to diagnose a number of diseases in people all over the world. It can detect cardiovascular disorders and soft-tissue injuries in the body of the subject. However, there is a significant challenge that is frequently encountered by a number of healthcare practitioners while conducting an MRI. Numerous magnetic resonance imaging (MRI) applications appear to be constrained by subject motion. Particularly, head tremor, which frequently occurs along with stroke, may make several high-resolution two-dimensional (2D) as well as three-dimensional (3D) approaches useless.

Cancer can also be diagnosed in the body of a patient using an MRI. Additionally, MRI can assist doctors in planning cancer treatments like radiation or surgery. A patient does not need to do anything unusual to prepare for an MRI as it is a painless procedure. Internal organs of a patient's body are visualized in cross-section using MRI. Instead of radiation, MRI employs powerful magnets to create the images. An MRI scan produces cross-sectional slices from a variety of angles, simulating the perspective of someone looking at a section of the body from the front, the side, or above.

MRI is one of the most advanced and useful methods in order to diagnose a variety of diseases and ailments in the body of a human. However, there is a number of other problems that can be caused by improper execution of MR Imaging. MRI coil is an element, integrated into an MRI scanner, which can, sometimes, be very harmful to the patient undergoing the imaging. Additionally, as a result of these coils' RF energy deposition, patient heating issues have grown. Moreover, the RF coils are positioned nearer to the anatomy to get a superior signal-to-noise ratio (SNR), but occasionally, this can lead to noise in the body as a result of certain electrical fluctuations, which can lead to a variety of signal-to-noise ratios (SNR) and impact imaging.

 MRI Motion Tracking System Market Trends:

The MRI (Magnetic Resonance Imaging) motion tracking system market is continuously evolving, and several trends are shaping its development. These trends reflect the growing importance of motion tracking systems in enhancing the accuracy and efficiency of MRI procedures. AI and machine learning are being increasingly integrated into MRI motion tracking systems. These technologies enable real-time monitoring and correction of patient motion during scans, resulting in higher image quality and reduced scan times. Motion tracking systems are providing real-time feedback to both healthcare professionals and patients during MRI scans. This helps patients remain still and allows radiologists to make necessary adjustments for optimal image quality.

Manufacturers are working on ensuring that motion tracking systems are compatible with a wide range of MRI machines and software. This interoperability facilitates smoother integration and usage across different healthcare facilities. Healthcare providers are focusing on improving the patient experience during MRI scans. Motion tracking systems play a vital role in achieving this goal by reducing the need for sedation and ensuring a more comfortable and less stressful procedure. The use of MRI motion tracking systems for pediatric and geriatric patients is on the rise. These populations often find it challenging to remain still during scans, making motion tracking systems essential for ensuring image quality.

Some manufacturers are developing portable and mobile MRI motion tracking systems. These systems can be used in different clinical settings, including ambulances, which is especially useful for emergency care and critical patients. Continuous research and development efforts are driving innovation in the MRI motion tracking field. New technologies and methodologies are being explored to enhance the precision and reliability of motion tracking systems. Regulatory bodies and healthcare organizations are recognizing the value of motion tracking systems in MRI procedures. The establishment of guidelines and standards is providing a clear framework for the development and usage of these systems. Motion tracking systems are incorporating data analytics and reporting features. This allows healthcare professionals to track patient motion patterns over time and make informed decisions about patient care and scanner performance.

The MRI motion tracking system market is expanding globally. It is not limited to developed countries, and emerging economies are also investing in advanced healthcare infrastructure, contributing to market growth. Ensuring patient safety remains a top priority, and motion tracking systems are being designed to minimize risks associated with MRI procedures, including the avoidance of potential accidents related to ferromagnetic objects. Motion tracking systems are becoming more efficient, leading to a reduction in MRI scan times. This is particularly valuable in busy healthcare settings, as it increases the number of patients that can be scanned in a given timeframe. As healthcare systems seek to reduce costs, motion tracking systems are being viewed as a way to improve MRI scan efficiency and reduce the need for repeat scans, thus potentially saving resources and costs in the long term.

MRI Motion Tracking System Market By Type of Technology Segmentation:

Based on the Type of Technology the market is Camera-based Systems, Inertial Measurement Units (IMUs), Hybrid Systems. Camera-based MRI motion tracking systems use optical cameras and computer vision technology to monitor patient movement during scans. These systems track the position and orientation of markers or patterns on the patient's body or the MRI table. Camera-based systems are often used in research settings and for tracking patient motion in open MRI machines. They are suitable for real-time monitoring and can provide high-resolution images of motion patterns. Accurate tracking, non-invasive, real-time monitoring, and the ability to capture detailed motion data. IMUs are sensors that measure motion, including accelerations and rotations. In the context of MRI motion tracking, these sensors are attached to the patient's body and used to detect even subtle movements. IMUs are commonly used in MRI motion tracking due to their portability and versatility. They can be applied to various parts of the body and are effective in both open and closed MRI machines. Hybrid systems combine multiple technologies, often incorporating both camera-based and IMU-based components. These systems aim to leverage the strengths of each technology for improved accuracy and robustness. Hybrid systems are suitable for a wide range of MRI settings and can provide a more comprehensive solution for motion tracking. They are often used in clinical environments where accuracy and patient comfort are paramount. Enhanced accuracy, adaptability to different MRI machines, and the ability to address limitations of individual technologies.

MRI Motion Tracking System Market By Application Segmentation: 

Based on Application the market is divided into Neuroimaging, Cardiovascular Imaging, Abdominal and Pelvic Imaging, Musculoskeletal Imaging. Neuroimaging involves the use of MRI to capture images of the brain and nervous system. MRI motion tracking systems are crucial in this application, as they help reduce motion artifacts and improve the accuracy of brain scans, particularly in pediatric or claustrophobic patients. Neuroimaging is used for the diagnosis and monitoring of conditions like brain tumors, stroke, multiple sclerosis, and neurodegenerative disorders. Patients undergoing brain scans may experience involuntary movements, which can affect image quality. MRI motion tracking systems play a key role in ensuring the precision and clarity of neuroimaging. Cardiovascular imaging focuses on visualizing the heart and blood vessels. MRI motion tracking systems help in minimizing motion artifacts during cardiac MRI scans, which require precise image capture during the cardiac cycle. Cardiovascular imaging is used for diagnosing heart disease, assessing cardiac function, and studying blood flow patterns. Abdominal and pelvic imaging involves examining the abdominal and pelvic organs. Motion tracking systems are valuable in reducing motion-induced blurring during scans of these areas. This application is used for detecting and monitoring conditions like tumors, organ damage, and abnormalities in the gastrointestinal and reproductive systems. Musculoskeletal imaging focuses on the bones, joints, muscles, and soft tissues. MRI motion tracking is essential in capturing precise images, especially in patients with mobility limitations.

MRI Motion Tracking System Market By End User Segmentation: 

Based on end Users the market is divided into Hospitals and Clinics, Research Institutions. Hospitals and clinics represent one of the largest and most significant segments of the MRI motion tracking system market. These healthcare facilities use motion tracking systems for diagnostic purposes and patient care. In hospitals and clinics, motion tracking systems are primarily used for patient MRI scans. They help ensure the accuracy and reliability of MRI images by compensating for patient motion, reducing the need for repeat scans, and improving the overall patient experience. Research institutions, including universities and dedicated research centers, often play a vital role in advancing medical imaging technology. They use MRI motion tracking systems in both clinical research and academic studies. Research institutions apply motion tracking systems to explore the potential of MRI in various research areas, including neuroscience, cardiovascular research, musculoskeletal studies, and more. These systems help researchers obtain high-quality images while monitoring patient or subject motion.

MRI Motion Tracking System Market By Patient Age Group Segmentation: 

Based on Patient Age group the market is divided into Pediatric, Adult. The pediatric segment focuses on children and adolescents, typically up to the age of 18 or 21, depending on the healthcare facility's criteria. Pediatric MRI motion tracking systems are designed to cater to the unique challenges of imaging young patients. Pediatric patients often have difficulty remaining still during MRI scans, and they may require sedation or anesthesia for successful imaging. Motion tracking systems in pediatrics are crucial for minimizing the need for sedation, reducing potential risks, and ensuring child-friendly MRI experiences. The adult segment encompasses individuals above the pediatric age group, which includes young adults, middle-aged adults, and senior citizens. MRI motion tracking for adults may differ from that for pediatric patients due to variations in patient movement, health conditions, and cooperation levels. MRI motion tracking systems for adults are utilized in various clinical scenarios for diagnosis and treatment planning across different medical specialties, such as neurology, cardiology, orthopedics, and more. They help ensure image accuracy and reduce the need for rescans due to patient movement.

MRI Motion Tracking System Market By MRI Machine Compatibility Group Segmentation: 

Based on MRI Machine Compatibility the market is divided into Closed MRI Systems, Open MRI Systems. Closed MRI systems refer to traditional MRI machines that enclose the patient in a tunnel-like structure during the scan. These machines are known for their strong magnetic fields and high-quality imaging capabilities Closed MRI systems are used for a wide range of diagnostic purposes, including neurological, musculoskeletal, abdominal, and cardiovascular imaging. They are often preferred for their ability to generate detailed images. Patients undergoing scans in closed MRI systems may experience claustrophobia or discomfort, which can lead to motion artifacts. MRI motion tracking systems are essential for reducing the impact of patient movement on image quality. Open MRI systems feature a more open and spacious design, which is particularly beneficial for patients who may feel anxious or claustrophobic in traditional closed MRI machines. Open MRI machines offer a more patient-friendly experience. Open MRI systems are used in various diagnostic scenarios, often for patients who cannot tolerate the confined environment of closed MRI machines. These systems are employed in neurological, musculoskeletal, and pediatric imaging, among other applications.

MRI Motion Tracking System Market Leaders

• Siemens Healthineers
• Philips Healthcare
• General Electric (GE) Healthcare
• TracInnovations, Kineticor
• Theia
• Metria Innovations
• Sound Imaging, Inc.
• Confirma Software
• Chipiron
• DeepSpin GmbH
• Aspect Imaging Ltd.

These companies contribute significantly to the growth and innovation within the MRI Motion Tracking System Market, offering a wide range of solutions to meet the diverse needs of the biopharmaceutical, biotechnology, and research industries.

• In 2021, the marker-less segment registered a substantial revenue share of the MRI motion tracking system market. These systems build reference points for body part models, such as the head, in order to estimate movements. The structured light technology can be employed to evaluate motion monitoring and correct the gathered information either retroactively or prospectively.
• In 2021, North America accounted for the largest revenue share of the MRI motion tracking system market. High healthcare GDP, strict diagnostic regulation, increased use of MRI scans over other diagnostic modalities and the existence of multiple research institutions aiming to create more efficient systems. Moreover, the regional healthcare infrastructure is one of the largest all over the world and is also growing at a very rapid pace.