AAOS 2024 marked an exceptional event, boasting a plethora of innovative devices, debut exhibitors, and cutting-edge technology. Among the array of advancements showcased during the event, virtual reality (VR) and augmented reality (AR) devices emerged prominently. These technologies were presented not only as tools for training but also as methods for enhancing surgical precision and efficacy.
As we traversed through the bustling aisles of booths, VR and AR devices captured our attention with their potential to revolutionize surgical practices. In this article, we’ll explore some of the standout VR and AR devices that we had the privilege to experience firsthand.
Osso:
Upon engaging with Osso’s VR devices, despite lacking a surgical background myself, I found the interface remarkably intuitive and user-friendly. Equipped with a headset and microphone, users can seamlessly collaborate in virtual surgery rooms, transcending geographical barriers. Notably, tactile feedback simulates bone contact during surgery, providing a tangible sense of the procedure. Moreover, users have the option to employ handheld remotes or scan their own hands, offering a personalized experience. Osso’s integration of analytics enables surgeons to track their performance and compare it with peers, facilitating continuous improvement. The collaboration between Osso and major medical device companies like Johnson & Johnson underscores the industry’s recognition of this transformative technology.
Here’s a brief overview of Osso: Osso Enterprise offers healthcare professionals advanced virtual reality training modules on a unified platform, enhancing skills from routine to complex procedures. Benefits include improved efficacy, knowledge sharing, and global scalability. Osso VR provides lifelike simulations validated by research to boost performance, while Osso Analytics tracks progress in real-time.
Visit Osso: https://www.ossovr.com/
Novarad:
Novarad presented another compelling application of AR technology, aimed at enhancing the precision and efficiency of certain surgical procedures. During a demonstration, I experienced firsthand how the VisAR headset facilitates intricate spine surgeries. With dynamic views and precise targeting, the system enables surgeons to navigate and execute procedures with unparalleled accuracy. Visual cues guide the insertion of screws, ensuring optimal placement while providing real-time feedback to prevent deviations. Novarad’s AR solutions have already found utility in numerous hospitals and are poised to expand into additional surgical domains.
Here’s a brief overview of Novarad: Novarad offers customizable medical imaging solutions for hospitals of all sizes, including critical access and rural hospitals.Their expertise lies in PACS and medical imaging software deployment for various healthcare settings. Key features of their software include precise instrument tracking, real-time 3D reconstruction, and intraoperative viewing. Their VisAR system is FDA-cleared for spinal surgical guidance and integrates with ultrasound for enhanced precision.
Visit Novarad: https://www.novarad.net/
Conclusion:
The advancements showcased by Osso and Novarad exemplify the transformative potential of VR and AR technologies in the medical field. From immersive training experiences to intraoperative guidance, these innovations promise to redefine surgical practices, enhancing outcomes and patient care. As these technologies continue to evolve and gain widespread adoption, they represent a paradigm shift towards a more efficient, precise, and patient-centric approach to healthcare.
During our time at AAOS, we diligently surveyed numerous orthopedic physicians to gather insights into their preferences regarding 3D-printed implants and robotic-assisted surgeries. If you’re eager to discover the preferences of these physicians and the most popular devices in this field, don’t hesitate to contact us at info@idataresearch.net. We’d be delighted to discuss how you can access the valuable data we collected throughout the three exhibition days at AAOS 2024.