Evaluation of Augmented Reality Technology in Global Surgery Market: Explore In Details With Spherical Insights & Consulting

Surgical AR

The report provides a summary of the global surgical AR sector based on historical data sets (current trends, industry statistics, and emerging companies shaping healthcare future, preliminary estimates from 2020-2021, 2022, and 2023), as well as projections for the global surgical AR sector for global regions in 2024 and 2025. This data-driven research offers users an industry-wide view of emerging technologies and innovative insights to help them make critical business decisions. As the surgical environment evolves in the digital age, several innovations have emerged as potential disruptive technologies in the surgical workplace. Augmented reality (AR) and virtual reality (VR) are rapidly becoming more available, accessible, and, importantly, affordable, implying that their application in healthcare to improve the medical use of data is inevitable.

 

Augmented reality (AR) technology has emerged as a game changer in surgical navigation, transforming the way complex procedures are performed and significantly improving patient outcomes. Systems for augmented reality surgical navigation have already made a big difference in a number of life-saving and life-improving operations all around the world. As the field evolves, the future of augmented reality in surgical navigation has enormous potential to transform global healthcare. By fusing the fields of computer technology and medicine, these augmented reality surgical navigation devices allow surgeons a distinct viewpoint and improved precision when performing surgeries. AR provides surgeons with an unprecedented level of accuracy, real-time instruction, and a unique perspective by superimposing holographic images, annotations, measurements, and virtual instruments directly onto the patient's body.

 

The Global Surgical AR Market Size is Expected to Reach a Significant Share by 2033, Growing at 11.3% CAGR from 2023 to 2033. Access Full Report Here: https://www.sphericalinsights.com/reports/surgical-ar-market

 

Working of Surgical AR

Surgical AR projects 3D images onto the patient's body to precisely plan complex procedures in neurosurgery, orthopedics, and reconstructive surgery. By combining image-based planning and navigation with hands-free AR, users will be able to achieve better clinical outcomes in a variety of applications. Augmented and virtual reality, as well as 3D visualization, can help surgeons understand the 3D rendering of patients and thus reduce surgical risks. Three-dimensional visualization and augmented reality are two of the greatest recent inventions. The medical industry is one that best exemplifies these. Augmented reality and three-dimensional visualization have made significant contributions to surgical advancement. For a few years, augmented reality has been used to teach medical students about procedures such as penis implant surgery and blood clot treatment.

 

Surgical Navigation: Utilizing Augmented Reality

Numerous surgical operations have already seen the effective use of augmented reality, improving both surgical outcomes and patient care. Among the noteworthy applications are:

• Orthopedic Surgery:

Surgical navigation based on augmented reality has proven very useful for orthopedic treatments, including spine and joint replacements. With their ability to precisely track bone structures, position implants, and assure ideal placement, surgeons can improve functional outcomes and minimize problems.

 

• Neurosurgery:

With AR technology, neurosurgeons can now precisely visualize and navigate surgery sites, transforming the field. It makes precise planning and execution of complex operations possible, including deep brain stimulation, spine surgery, and tumor resections.

 

• Minimally Invasive Surgery:

With real-time guidance and visualization that is more accurate and less intrusive than previously possible thanks to robot-assisted navigation, augmented reality (AR) technology has made a major contribution to the field of minimally invasive surgery. Surgeons can more precisely negotiate intricate anatomical structures, which lowers complications and expedites patient recovery.

 

Advantages of AR in Surgery:

AR navigation systems have many advantages for patients and doctors. Reduced cognitive burden, increased accuracy, and higher spatial awareness are advantageous to surgeons. Better results are finally achieved because of the system's intuitive design, which enables them to concentrate on the surgical site and make well-informed decisions. By minimizing invasiveness, lowering the likelihood of problems, and speeding up recovery times, AR systems benefit patients. The technology improves the overall safety and success of surgical operations by empowering surgeons to carry out precise incisions and interventions. Furthermore, AR surgical navigation systems can greatly minimize the requirement for extra radiation exposure from X-rays and fluoroscopy. Conventional techniques frequently need the surgeon to be guided by several imaging scans, which increases radiation exposure for the patient and the medical staff. AR navigation, on the other hand, is dependent on pre-existing imaging data that may be immediately integrated into the augmented reality environment, such as CT or MRI scans. This eliminates the need for continuous fluoroscopy or X-rays during the procedure, allowing the surgeon to see and precisely navigate through the patient's anatomy.

 

How Can AR and 3D Visualization Help with Surgical Education?

Through the use of 3D augmented and virtual reality, surgery students can learn about the subject matter in real life by simulating any medical situation, including procedures. Receiving comments and conducting a debriefing helps one learn from mistakes. Because this kind of simulation might be carried out without training faculty present, it offers a great deal of flexibility. This allows for a full understanding of the human body thanks to 3D modeling. Surgical students can be taught using scenarios that closely mimic real-world surgical settings. Students can simulate surgery in virtual reality by using the model made by filming real-time procedures from multiple angles. VR training based on simulations is an excellent way to improve one's surgery skills. On the other hand, it helps reduce overall costs, recovery time, and complications following surgery.

 

Obstacles of Surgical AR

The use of augmented reality in surgical navigation has demonstrated significant potential to enhance surgical accuracy and results. However, there are obstacles to overcome while using new technology. Wearability and discomfort concerns are one difficulty. In the past, using AR headsets for prolonged periods has been difficult. To solve this problem, Microsoft created the HoloLens 2, a more ergonomic variant.

 

Cost is, of course, another issue. AR necessitates sophisticated imaging capabilities in operating rooms along with costs associated with staff, training, technology, and software. AR will become less expensive as more practical solutions are found and technology advances. That being said, depending on the developer, there are some affordable choices for AR surgery. For the time being, most large hospitals can still afford augmented reality surgical solutions. Additionally, AR surgical navigation may reduce implicit expenses like surgical error, human error, and potential malpractice lawsuits. Better surgical results can be achieved by utilizing AR in conjunction with doctors' skills and knowledge, which can be a great addition.

 

The familiarization and training of surgeons present a third obstacle to the development of AR surgical navigation. To fully profit from AR systems, surgeons must be adept with them. To guarantee that surgeons are at ease and proficient when utilizing AR for surgical navigation, hospitals ought to offer training courses and continuous assistance. Augmented reality has the potential to be a game-changing tool that improves surgical procedures all around with the right support and deployment.

 

The novelty of AR technology presents a fourth difficulty. Although there are FDA-approved devices, many surgeons are hesitant to try these futuristic-looking systems. We must raise awareness of this ground-breaking, FDA-approved technology so that it can be used immediately for medicine to advance.

 

AR's Potential for Surgical Navigation

AR's potential to significantly transform healthcare and enhance patient outcomes in two key areas, among others, during surgical navigation is enormous.

 

Improved Accuracy and Customization:

As AR technology develops, surgeons will be able to do procedures with even more accuracy and customized instruction. Predictive analytics, patient-specific anatomical overlays, and real-time intraoperative imaging will all help to improve surgical decision-making and results.

 

Training And Education in Surgery:

Medical students and trainees will be able to watch and learn from surgical procedures in an immersive and interactive way thanks to AR-based surgical navigation systems, which will play a critical role in medical education. By bridging the knowledge and skill gap between theory and practice, this technology can help aspiring surgeons become more skilled and proficient. AR also has the potential to support telemedicine, allowing distant surgeons to help with intricate surgeries from any location in the globe.

 

AR surgical navigation could not be a top concern for small hospitals just yet. However, AR needs to be a primary concern for large and corporate hospitals. Hospitals without it might find it impossible to compete in the not-too-distant future.

 

With the ongoing advancement of AR technology and its integration with surgical navigation systems, there is immense potential to enhance surgical results and revolutionize the healthcare industry. These successes have opened the door for even more creative developments in surgical navigation, and further cooperation between technologists, medical experts, and researchers will surely influence how augmented reality develops in the medical field.

 

List of Key Companies

• Augmented Pixels Co.
• Layer B.V
• Siemens Health Care
• CAE Health Care
• Kooaba Ag
• Zugara Inc.
• Vuzix Co.
• Orca Health, Inc.
• Atheer
• Augmedix
• Philips Health care
• Firsthand Technology
• Artoolworks, Inc.
• Intutive Surgical
• others.

 

Recent Development

• In September 2023, Virtual reality technology from Meta is assisting in patient care and surgeon training, but costs are still an obstacle.

 

• In July 2023, the successful completion of a USD 82.5 million Series D investment was recently announced by Augmedics, a developer of an AR surgical navigation technology. Dallas-based CPMG led the deal, and Evidity Health Capital joined as a syndicate partner. The round was also joined by previous investors H.I.G. Capital, Revival Healthcare Capital, and Almeda Ventures.

 

• In June 2023, Medivis, a medical technology startup whose goal is to make augmented reality the new norm for surgical navigation, revealed that it has raised $20 million in a Series A fundraising round headed by Thrive Capital, with participation from Mayo Clinic and Initialized Capital. Hugo Barra, Coalition Operators, Bob Iger, Kevin Durant, and Dr. Robert Spetzler are among the other investors.

 

Conclusion

In conclusion, technical innovation and the need for sustainability are driving a dynamic state of transition in the surgical AR sector. Executives in the business world need to be flexible, visionary, and willing to take on new challenges and opportunities. Based on the most recent monthly advancements, this sculpture serves as a compass pointing towards a future where the most innovative and adaptive people will thrive. Understanding the surgical AR industry is essential to managing its intricacies and taking advantage of its prospects. Use the platform we offer to stay up to date on the latest advancements and innovations in the surgical AR industry and keep your business innovative. By offering a concise yet comprehensive summary of the most recent developments and trends, The Spherical Insights LLP assists you in locating lucrative joint venture prospects and making educated investment decisions.

 

About the Spherical Insights & Consulting

Spherical Insights & Consulting is a market research and consulting firm which provides actionable market research study, quantitative forecasting and trends analysis provides forward-looking insight especially designed for decision makers and aids ROI.

Which is catering to different industry such as financial sectors, industrial sectors, government organizations, universities, non-profits and corporations. The company's mission is to work with businesses to achieve business objectives and maintain strategic improvements. 

 

CONTACT US:

For More Information on Your Target Market, Please Contact Us Below:    

Phone: +1 303 800 4326 (the U.S.)

Phone: +91 90289 24100 (APAC)

Email: inquiry@sphericalinsights.com, sales@sphericalinsights.com

Contact Us: https://www.sphericalinsights.com/contact-us

Follow Us: LinkedIn | Facebook | Twitter