Intraoperative Neurophysiological Monitoring System Market 9.30% CAGR Growth with Medtronic Neurovision Nihon Kohden Neurosign NuVasive Inomed Natus Neurostyle

The Intraoperative Neurophysiological Monitoring (IONM) System market is experiencing significant growth, driven by advancements in surgical techniques and an increasing emphasis on patient safety during complex procedures. IONM is a critical component in neurosurgery, orthopedic surgery, and other surgical specialties where nerve function monitoring is essential. This technology helps minimize the risk of neurological damage during surgery by providing real-time feedback on the integrity of neural pathways. As the demand for more precise and safer surgical interventions rises, the adoption of IONM systems is becoming increasingly prevalent across healthcare facilities worldwide.

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According to recent market analyses, the IONM System market is projected to grow at a compound annual growth rate (CAGR) of 9.30% from 2025 to 2032. This robust growth is attributed to factors such as the rising incidence of neurological disorders, the growing number of surgeries requiring neurophysiological monitoring, and an increasing awareness of the benefits of IONM among healthcare professionals. Additionally, the continuous development of advanced technologies, such as portable monitoring devices and integrated software solutions, is expected to further enhance the effectiveness and usability of IONM systems. As a result, the market is expected to surpass significant valuation thresholds by 2032, highlighting the critical role of IONM in improving surgical outcomes and patient safety in the evolving landscape of modern medicine.

The future of the IONM System market is promising, with ongoing research and innovation likely to introduce more sophisticated monitoring techniques and expand the application of IONM in various surgical procedures. As healthcare systems increasingly prioritize patient safety and surgical efficacy, the demand for reliable and advanced IONM solutions will continue to rise. This growth trajectory indicates a substantial opportunity for stakeholders in the market, including healthcare providers, technology developers, and researchers, to contribute to the advancement of intraoperative monitoring practices that ultimately enhance patient care and surgical success rates.

The Intraoperative Neurophysiological Monitoring (IONM) System market is witnessing transformative growth driven by the increasing demand for enhanced patient safety during surgery. IONM is crucial for real-time monitoring of the nervous system's functionality, ensuring that surgeons can detect any potential complications during procedures. This system is vital in various surgical domains, including neurosurgery, spinal surgery, and orthopaedic operations, where maintaining nerve integrity is essential for optimal patient outcomes.

Recent advancements in technology have significantly propelled the IONM market, with breakthroughs in electrophysiological monitoring techniques that offer unprecedented insights into a patient's neural status during surgery. Furthermore, strategic partnerships among leading market players have fostered innovation, leading to the introduction of more sophisticated IONM systems that enhance surgical neurophysiology capabilities. Executives and decision-makers in healthcare must stay attuned to these developments as they present lucrative opportunities for investment and growth in surgical monitoring technologies.

As the healthcare industry continues to evolve, the integration of IONM systems has become synonymous with best practices in surgical procedures, underscoring the importance of comprehensive monitoring during complex surgeries. This press release aims to illuminate market dynamics, offering valuable insights for stakeholders interested in the future of intraoperative monitoring.

Key Growth Drivers and Trends

The IONM System market is experiencing a surge due to several key growth drivers, including the increasing focus on patient safety, digitisation of healthcare, and evolving consumer expectations. The emphasis on sustainability in medical practices is also prompting healthcare providers to adopt innovative solutions that enhance surgical outcomes while minimizing risks.

One of the most notable transformative trends is the integration of artificial intelligence (AI) within IONM technologies. AI-driven analytics can improve the accuracy of neurophysiological monitoring, enabling real-time interpretation of data during surgery. This technology empowers surgeons to make informed decisions quickly, thereby improving patient safety and potentially reducing surgical complications.

Moreover, product customisation is becoming increasingly prevalent as healthcare institutions seek tailored solutions that address specific needs in surgical monitoring. Emerging technologies, such as the Internet of Things (IoT) and virtual reality, are also beginning to play a role in IONM, offering new ways to visualize and interpret neurophysiological data.

The market is also witnessing a shift towards more comprehensive training for neurophysiological monitoring technicians, ensuring that they are equipped with the necessary skills to operate advanced IONM systems effectively. As a result, healthcare institutions are prioritizing the development of robust training programs that cover the best practices for intraoperative monitoring and the interpretation of IONM data.

With these trends shaping the future of the IONM market, stakeholders must adapt to the evolving landscape to meet the demands of modern surgical practices.

Market Segmentation

The IONM System market can be segmented into distinct categories based on type and application, allowing for a clearer understanding of market dynamics.

Segment by Type:
- EEG Monitoring
- EMG Monitoring
- MEP Monitoring

Segment by Application:
- Neurosurgery
- Orthopaedics
- Vascular Surgery
- ENT (Ear, Nose, and Throat)
- Oral and Maxillofacial Surgery
- Other

EEG monitoring is predominantly used in brain surgeries, where precise brain activity tracking is critical. EMG monitoring is essential for assessing nerve function and muscle response, particularly in spinal surgeries. MEP monitoring, on the other hand, plays a crucial role in evaluating the functionality of motor pathways during surgical interventions.

In terms of applications, neurosurgery remains the largest segment due to the intricate nature of brain procedures, requiring vigilant monitoring of neural pathways. Orthopaedics and vascular surgery are also significant contributors due to the prevalence of nerve injuries associated with these procedures. The ENT and oral-maxillofacial surgery segments are growing as awareness of the benefits of IONM in maintaining nerve integrity increases.

This comprehensive segmentation highlights the diverse applications of IONM systems and underscores the importance of tailored monitoring strategies in various surgical contexts.

Competitive Landscape

The competitive landscape of the IONM System market is characterized by several key players who are leading the way in technological advancements and market expansion. These companies are pivotal in shaping the future of intraoperative neurophysiological monitoring.

- Medtronic: A global leader in medical technology, Medtronic has been at the forefront of developing innovative IONM solutions. The company recently launched upgraded IONM systems that integrate advanced AI algorithms for enhanced data interpretation during surgeries.

- Neurovision Medical Products: This company specializes in developing neurophysiological monitoring equipment, focusing on user-friendly designs that facilitate seamless integration into surgical workflows. Their recent partnership with a leading hospital group aims to advance intraoperative monitoring practices.

- Nihon Kohden: Known for its cutting-edge medical devices, Nihon Kohden has expanded its IONM product line to include more versatile monitoring options. Their commitment to research and development has led to breakthroughs in real-time monitoring technology.

- Neurosign: A pioneer in the IONM space, Neurosign has introduced state-of-the-art systems that enhance nerve monitoring capabilities. Their ongoing collaboration with surgical teams has resulted in improved best practices for intraoperative monitoring.

- NuVasive: Focused on spine surgery, NuVasive has integrated IONM into its surgical platforms, offering surgeons advanced tools for nerve preservation. Their recent product launches emphasize the importance of real-time monitoring for better surgical outcomes.

- inomed: This company is known for its innovative IONM solutions and has recently expanded its market presence by entering into new strategic partnerships aimed at enhancing the capabilities of surgical neurophysiology.

- Natus Medical: With a wide array of neurodiagnostics products, Natus Medical is committed to advancing IONM technologies. Their latest offerings include systems designed for improved data accuracy and user experience.

- Neurostyle: Specializing in personalized neurophysiological monitoring solutions, Neurostyle has made significant strides in product development, focusing on customizable IONM systems that cater to specific surgical needs.

- Neuro Alert: This company is dedicated to enhancing the safety of neurosurgical procedures through innovative IONM systems. Their recent advancements in monitoring technology have garnered attention in the surgical community.

- NCC Medical: A key player in the medical equipment sector, NCC Medical is expanding its portfolio with new IONM products that aim to improve the efficiency and effectiveness of surgical monitoring practices.

These leading players are instrumental in driving innovation within the IONM System market, continually pushing the boundaries of what is possible in intraoperative neurophysiological monitoring.

Opportunities and Challenges

The IONM System market presents numerous opportunities for growth, particularly in untapped niches such as outpatient surgical centers and smaller medical facilities that are increasingly recognizing the importance of intraoperative monitoring. As buyer personas evolve, healthcare providers are seeking innovative solutions that enhance patient safety while also being cost-effective.

However, the market also faces several challenges, including regulatory hurdles that can impede the rapid adoption of new IONM technologies. Compliance with stringent regulations requires manufacturers to invest time and resources into ensuring their products meet safety and efficacy standards. Furthermore, supply chain gaps, especially in the wake of recent global disruptions, pose significant risks to the timely availability of IONM equipment and consumables.

To address these challenges, stakeholders must adopt proactive strategies, such as fostering partnerships with regulatory bodies to streamline compliance processes and investing in robust supply chain management systems. By focusing on these areas, stakeholders can mitigate risks and capitalize on the growing demand for intraoperative neurophysiological monitoring solutions.

Technological Advancements

Technological advancements are reshaping the IONM System market, with innovative tools and techniques enhancing the efficacy of neurophysiological monitoring. Key developments include:

- Artificial Intelligence (AI): AI has the potential to revolutionize intraoperative monitoring by offering predictive analytics that can alert surgical teams to potential complications in real-time.

- Digital Twins: This emerging technology allows for the creation of virtual replicas of patients, enabling surgeons to simulate surgical procedures and monitor neurophysiological responses in a controlled environment.

- Internet of Things (IoT): IoT-enabled devices are facilitating seamless data transfer and integration, allowing for comprehensive monitoring of patient health metrics during surgery.

- Virtual Reality (VR): VR is being explored as a training tool for neurophysiological monitoring technicians, providing immersive experiences that enhance their understanding of IONM systems.

- Blockchain: This technology is being considered for secure data management, ensuring that sensitive patient information is protected while allowing for transparent sharing of monitoring data among surgical teams.

These cutting-edge tools are transforming the landscape of intraoperative neurophysiological monitoring, providing new avenues for improving patient outcomes and enhancing the effectiveness of surgical procedures.

Research Methodology and Insights

STATS N DATA employs a robust research methodology to provide comprehensive insights into the IONM System market. Our approach combines top-down and bottom-up methodologies, ensuring that our findings are well-rounded and accurate.

We utilize primary data collection methods, including interviews with industry experts, surveys of healthcare professionals, and analysis of market trends. Secondary data sources, such as industry reports, government publications, and academic research, complement our primary findings.

Through multi-layer triangulation, we validate our insights to ensure their reliability. This thorough research process equips stakeholders with actionable intelligence, enabling them to make informed decisions in the evolving landscape of intraoperative neurophysiological monitoring.

In conclusion, the IONM System market is poised for significant growth as technology continues to advance and the importance of patient safety during surgery becomes increasingly recognized. Stakeholders must remain vigilant to emerging trends and challenges while leveraging opportunities for investment and innovation. STATS N DATA stands ready to support industry players with trusted insights and strategic guidance in this dynamic market.

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In the rapidly evolving landscape of healthcare technology, one key player in the Intraoperative Neurophysiological Monitoring (IONM) System market faced a pressing challenge. This player found itself grappling with a surge in surgical procedures requiring real-time neurophysiological monitoring, which was crucial for ensuring patient safety during complex operations. With the increasing volume of surgeries and the corresponding need for sophisticated monitoring systems, this key player realized that their existing technology was struggling to keep pace. Reports of missed signals and delayed responses were becoming more frequent, raising alarms about the potential for neurological complications during surgeries. The consequences of such malfunctions could be dire, leading to irreversible damage for patients and significant liability for the healthcare providers involved. As they contemplated their next steps, the pressure to innovate and enhance operational efficiency weighed heavily on them.

Recognizing the need for a radical transformation, this key player turned to a comprehensive data analysis initiative that would ultimately redefine their approach to IONM. By employing advanced analytics and machine learning techniques, they sifted through mountains of operational data to identify the root causes of inefficiencies and performance gaps in their monitoring systems. This analysis revealed critical insights, including patterns of signal loss, equipment malfunctions, and even user errors that contributed to monitoring failures. Armed with this data, the team crafted a groundbreaking strategy focused on enhancing real-time monitoring capabilities, refining equipment reliability, and improving clinician training programs. They adopted an iterative approach, continuously testing and refining their systems based on real-time feedback from surgical teams. This data-driven strategy not only addressed the immediate challenges but also laid the groundwork for future innovations in the IONM space.

The results of this transformative strategy were nothing short of remarkable. Within a year of implementing the new IONM system, the key player saw a significant increase in market share, capturing the attention of healthcare providers seeking reliable and effective monitoring solutions. Efficiency metrics soared, with the average response time to neurophysiological alerts improving by over 40 percent, translating directly into enhanced patient outcomes in the operating room. Revenue growth followed suit, with a reported increase of 30 percent in sales as hospitals and surgical centers recognized the value of investing in a system that not only mitigated risk but also provided peace of mind for surgical teams. As word spread about the improved performance and reliability of their IONM solutions, the key player solidified its position as a leader in the market, ultimately transforming a significant challenge into a resounding success story that would inspire others in the healthcare technology industry.

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Q: What is Intraoperative Neurophysiological Monitoring?
A: Intraoperative Neurophysiological Monitoring (IONM) is a technique used during surgical procedures to monitor the functional integrity of the nervous system in real time. It involves the use of electrophysiological methods to assess the condition of neural pathways and structures, such as nerves, spinal cord, and brain, during operations. IONM is primarily employed to detect any potential complications early, providing immediate feedback to the surgical team about the status of the nervous system, which can help in preventing irreversible damage. The monitoring can include various modalities such as electromyography (EMG), electroencephalography (EEG), and somatosensory evoked potentials (SSEPs).

Q: How does IONM enhance surgical safety?
A: IONM enhances surgical safety by providing real-time feedback about the neurological status of patients during operations. By continuously monitoring the electrical activity of nerves and other neural structures, surgeons can receive immediate alerts if there are any changes that may indicate potential damage. This allows for quick interventions, such as adjusting surgical techniques or repositioning instruments, to mitigate risks. The use of IONM has been shown to decrease the rates of nerve injuries and improve overall patient outcomes, making surgeries safer.

Q: What techniques are used in neurophysiological monitoring?
A: Various techniques are utilized in neurophysiological monitoring, each serving different purposes. Common techniques include:
1. Electromyography (EMG): This technique measures the electrical activity of muscles and helps in assessing the function of motor nerves.
2. Somatosensory Evoked Potentials (SSEPs): SSEPs evaluate the sensory pathways by measuring the electrical response of the brain to stimuli applied to peripheral nerves.
3. Motor Evoked Potentials (MEPs): MEPs assess the integrity of the motor pathways by stimulating the brain and recording the response in muscles.
4. Electroencephalography (EEG): EEG monitors brain activity and is useful in surgeries involving the brain, providing information about cortical function.
5. Visual Evoked Potentials (VEPs) and Auditory Evoked Potentials (AEPs) may also be used depending on the surgical site and patient needs.

Q: Why is real-time monitoring important during surgery?
A: Real-time monitoring is crucial during surgery because it allows for immediate detection of any changes or abnormalities in neural function. The nervous system can be very sensitive to surgical manipulation, and any compromise can occur rapidly. Real-time data enables the surgical team to react instantly to potential problems, such as nerve compression or ischemia, which can lead to permanent damage if not addressed promptly. This immediacy helps ensure that corrective measures can be taken as necessary, significantly enhancing patient safety and outcomes.

Q: What are the benefits of using IONM?
A: The benefits of using IONM during surgical procedures include:
1. Reduced Risk of Neurological Injury: By monitoring neural pathways, the risk of intraoperative neurological damage is significantly lower.
2. Improved Surgical Decision-Making: Surgeons can make more informed decisions based on real-time data, adjusting their techniques as needed.
3. Enhanced Patient Outcomes: Studies have shown that the use of IONM is associated with lower postoperative complications and improved recovery.
4. Increased Surgical Confidence: Surgeons often feel more secure knowing that they have the ability to monitor neural function continuously.
5. Cost-Effectiveness: Preventing complications can reduce the overall costs associated with postoperative care and rehabilitation.

Q: How is IONM performed during surgery?
A: IONM is performed by placing electrodes on the patient, which can be surface electrodes or needle electrodes, depending on the monitoring technique being used. The specific setup will vary based on the surgical procedure and the areas being monitored. Once the electrodes are in place, the neurophysiologist or IONM technician will establish a baseline measurement of the neural function before the surgical intervention begins. During surgery, the team continuously records and analyzes the data, looking for any changes that may indicate potential problems. If any abnormalities are detected, the surgical team is alerted so that they can take appropriate action.

Q: What types of surgeries use intraoperative monitoring?
A: IONM is utilized in a variety of surgical procedures, particularly those involving the nervous system or areas where nerves are at risk. Common types of surgeries that employ IONM include:
1. Spinal Surgery: Such as spinal fusions, tumor resections, and decompression surgeries.
2. Neurosurgery: Including brain tumor resections, epilepsy surgeries, and procedures involving the cranial nerves.
3. Orthopedic Surgery: Particularly in procedures involving the pelvis or lower extremities where sciatic nerve function is at risk.
4. Vascular Surgery: Involving carotid endarterectomy and other vascular procedures where nerves may be affected.
5. Head and Neck Surgery: Including thyroidectomy and parotid gland surgery where cranial nerves are at risk.

Q: How can IONM prevent nerve damage?
A: IONM can prevent nerve damage by providing continuous monitoring of the function of nerves during surgery. When a surgeon operates close to critical nerve structures, IONM can detect changes in electrical activity that may indicate impending nerve injury, such as decreased signal amplitude or latency changes. If abnormal signals are detected, the surgical team is immediately alerted, allowing them to adjust their technique, reposition instruments, or take other corrective actions to relieve pressure on the nerves. This proactive approach helps to preserve nerve function and reduce the likelihood of postoperative complications.

Q: What qualifications do I need for IONM training?
A: Qualifications for IONM training can vary depending on the specific role (e.g., neurophysiologist, technologist, or technician) and the requirements of specific employers or institutions. Generally, a background in neuroscience, biology, or a related field is beneficial. Many IONM practitioners hold degrees in fields such as neurophysiology, nursing, or allied health professions. Certification from recognized organizations, such as the American Board of Registration of Electroencephalographic and Evoked Potential Technologists (ABRET) or the American Clinical Neurophysiology Society (ACNS), is often required or preferred. Additionally, hands-on training under the supervision of experienced professionals is crucial for gaining practical skills in IONM.

Q: What challenges are faced in neurophysiological monitoring?
A: Several challenges can arise in neurophysiological monitoring, including:
1. Technical Difficulties: Issues with electrode placement, signal quality, and equipment malfunctions can affect monitoring accuracy.
2. Patient Factors: Variability in patient anatomy, underlying neurological conditions, or movement during surgery can complicate data interpretation.
3. Communication: Effective communication between the IONM team and the surgical team is essential, and lapses can lead to misinterpretation or delayed reactions to changes.
4. Training and Expertise: There is a need for well-trained personnel to operate IONM systems and interpret results accurately.
5. Cost and Accessibility: The high cost of IONM equipment and the need for specialized staff can limit access to these services in some healthcare settings.

Q: How are IONM results interpreted?
A: IONM results are interpreted by trained neurophysiologists or technicians who analyze the data collected during surgery. They look for specific patterns and changes in the electrical signals that indicate the integrity of neural pathways. For example, in SSEPs, a decrease in amplitude or an increase in latency may suggest compromised sensory pathways. In EMG monitoring, the presence of abnormal waveforms can indicate motor nerve dysfunction. The interpretation of these results is usually done in real time, with immediate communication to the surgical team, allowing for prompt intervention if necessary.

Q: What is the cost of intraoperative neurophysiological monitoring?
A: The cost of intraoperative neurophysiological monitoring can vary widely depending on several factors, including the complexity of the surgery, the specific techniques used, and the duration of monitoring. Generally, IONM services can range from several hundred to several thousand dollars per procedure. Factors influencing cost include the type of monitoring performed, the experience and credentials of the IONM staff, and any additional equipment or technology that may be required. While there is an upfront cost associated with IONM, the potential for reduced complications and improved patient outcomes can lead to long-term savings for healthcare facilities.

Q: What are the latest advancements in IONM?
A: Recent advancements in IONM include the integration of more sophisticated technologies and techniques. Developments in machine learning and artificial intelligence are being explored to enhance the interpretation of monitoring data and predict outcomes more accurately. Improvements in electrode technology, such as wireless and miniaturized electrodes, are making it easier to gather data with less patient discomfort. Additionally, advancements in imaging techniques, such as intraoperative MRI and CT scans, are being combined with IONM to provide a more comprehensive understanding of the surgical environment. Telemonitoring and remote IONM services are also emerging, allowing specialists to provide support from distant locations.

Q: How do I choose the right IONM system?
A: Choosing the right IONM system involves several considerations. First, assess the specific monitoring needs based on the types of surgeries performed and the neural structures at risk. Consider the range of techniques supported by the system, such as SSEPs, MEPs, and EMG. Evaluate the ease of use, reliability, and quality of the equipment, as well as the availability of training and support from the manufacturer. Budget constraints are also a factor, as the cost of equipment can vary significantly. Additionally, consider the system's compatibility with existing surgical technologies and workflows in your facility.

Q: What regulations affect intraoperative neurophysiological monitoring?
A: Regulations affecting intraoperative neurophysiological monitoring may vary by country and region. In the United States, IONM practices are subject to regulations set by the Centers for Medicare & Medicaid Services (CMS) and the Joint Commission, which establish standards for patient safety and quality of care. Additionally, state licensing boards may have specific requirements for practitioners performing IONM. Compliance with the Health Insurance Portability and Accountability Act (HIPAA) is essential to protect patient information. Professional organizations, such as the American Clinical Neurophysiology Society, also provide guidelines and best practices that contribute to the regulatory landscape.

Q: Can IONM be used in outpatient surgical procedures?
A: Yes, IONM can be used in outpatient surgical procedures, although its application may be less common than in inpatient settings. The decision to use IONM in outpatient surgeries depends on the specific procedure, the level of risk to neural structures, and the overall complexity of the surgery. For certain outpatient procedures that involve significant manipulation of nerves, such as some orthopedic surgeries or minor neurosurgeries, IONM may be beneficial to enhance safety. However, considerations regarding cost, patient monitoring requirements, and the availability of trained personnel must be taken into account.

Q: What role does IONM play in spinal surgeries?
A: IONM plays a critical role in spinal surgeries by helping to monitor the function of the spinal cord and nerve roots during procedures. Spinal surgeries often involve manipulation near critical neural structures, which puts them at risk of injury. IONM techniques, such as SSEPs and EMGs, are commonly used to provide real-time feedback on the integrity of these structures. By detecting any changes that may indicate potential nerve damage, surgeons can take immediate corrective actions, significantly reducing the risk of postoperative neurological deficits. This proactive monitoring has led to improved outcomes in spinal surgery.

Q: How does IONM improve patient outcomes?
A: IONM improves patient outcomes by significantly reducing the risk of intraoperative neurological injuries. By providing real-time monitoring of neural function, IONM allows for immediate interventions when changes are detected. This prompt response helps to prevent permanent nerve damage, which can lead to complications such as paralysis, weakness, or chronic pain. Additionally, the use of IONM can lead to shorter recovery times and improved overall satisfaction for patients, as they are less likely to experience postoperative complications. Studies have shown that hospitals that employ IONM in high-risk surgeries report better patient outcomes and lower rates of readmissions.

Q: What factors influence the effectiveness of IONM?
A: The effectiveness of IONM can be influenced by several factors, including:
1. Surgeon Experience: The skill and experience of the surgeon in interpreting IONM data can significantly affect the outcomes.
2. Quality of Equipment: Advanced and well-maintained monitoring equipment can provide more accurate and reliable data.
3. Technician Expertise: The qualifications and experience of the IONM personnel are crucial for accurate data interpretation and timely communication.
4. Patient Factors: Individual patient anatomy, comorbidities, and pre-existing neurological conditions can affect the baseline readings and the interpretation of IONM results.
5. Surgical Complexity: The complexity of the procedure and the proximity to neural structures can dictate the necessity and effectiveness of IONM.

Q: What future developments are anticipated in neurophysiological monitoring?
A: Future developments in neurophysiological monitoring are expected to focus on enhancing technology and improving patient safety. Advances in artificial intelligence and machine learning may lead to more sophisticated analysis of monitoring data, enabling predictive analytics that can foresee potential complications. Additionally, the integration of imaging techniques with IONM could provide a more comprehensive view of neural structures during surgery. There is also a trend toward miniaturization and wireless technology, which could improve patient comfort and ease of monitoring. Finally, expanding the use of telemedicine for IONM support could enhance access to expert monitoring in a broader range of surgical settings.

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