![]() ![]() *Many thanks to Richard Vincent, CEO, and co-founder of FundamentalVR, for his time, responses and answers in this interview.Ĭan you give an overview of the Fundamental Surgery platform and the problem it solves? How this knowledge is transferred will continue to be multimodal, and VR has the potential to be a powerful adjunct to that offering.Here is ReadWrite Q&A with FundamentalVR. There is a significant amount of knowledge to consume as innovation continues in surgery. How will the use of VR expand in orthopedics over the next five years?ĭespite COVID, the limitations of surgical education have been present for quite some time. What problem exists within the current model, and can virtual reality (or extended reality) play a role in that workflow? This is a significant area of potential application and goes back to analyzing the problem. How might VR advancements impact their work in the future? Our primary readership is orthopedic company product development and engineering decision-makers. While the interest spans the orthopedic ecosystem, a deliberate, thoughtful and evidenced-based approach is our focus at PrecisionOS to support wide-scale adoption. Given the timing and significant impact that it can have, validation with well-done research is a core focus of PrecisionOS. It allows us to visualize and provide safe-failure opportunities for training and education. Virtual reality is a very powerful technology but these are its early days. Where within orthopedics are you experiencing the most significant interest in VR? With three-dimensional immersion in VR, we enhance the surgeons “perceptual expertise” to drive confidence and clarity during the procedure. This is one of the reasons we use advanced imaging, like CT scans, to support this mental exercise for complex situations like fractures or deformity. What are the advantages of using VR for preoperative planning over traditional computer software?Īs surgeons, we attempt to create the most refined mental model of the patients’ anatomy to drive efficiency and the appropriate size and location of medical devices. Given the complexity of surgery, multiple decisions and variability in patient anatomy, we automated the conversion of patient CT scans into virtual reality. This has always been a natural extension of what we’ve been targeting to enhance education and surgeon perceptual expertise. “Our new InVisionOS software, which took four years to develop, allows surgeons to visualize patient-specific needs and better plan for surgery.” “We focus on developing products that improve the confidence, competency and proficiency of surgeons, ultimately benefiting patient outcomes,” says Danny Goel, M.D., CEO, PrecisionOS. Surgeons can then use the Oculus Quest 2 to view, manipulate and isolate relevant anatomical areas prior to performing the actual surgical procedure. ![]() ![]() InVisionOS software automatically converts the patient’s computed tomography scan from any PACS system into a 3D reconstruction within seconds. Currently, surgeons view a simulated 3D image of the patient on a computer screen and then carry that mental model to the operating room. InVisionOS is a next-generation planning tool. The patented software, to be available in early 2022, lets surgeons use an Oculus Quest 2 device to perform preoperative planning. In late 2021, PrecisionOS received FDA 510(k) to market InVisionOS, a patient-specific planning tool that employs Virtual Reality (VR). ![]()
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