- The HoloSurge project has been awarded an €8.9 million Horizon Europe grant to enhance hologram technology for surgical planning.
- The project aims to improve spatial perceptions for surgeons, reduce surgical complications, and personalize surgery based on a patient’s unique anatomy.
- Initial trials for liver surgeries have shown a 74% reduction in organ alignment time using HoloCare’s AR images compared to MRI scans.
- The technology, delivered via augmented reality headsets, allows for all-round views of organs and collaboration among multi-disciplinary teams.
- Over four years, the project will integrate hologram technology into surgical workflows, ensure regulatory compliance, and optimize for liver and pancreatic cancer surgeries.
Revolutionizing Surgical Planning with HoloSurge Project Grant
HoloSurge, a groundbreaking four-year project at the forefront of merging technology and healthcare research, has recently been awarded an impressive €8.9 million Horizon Europe grant. This substantial grant marks a significant milestone in the realm of EU research and innovation, propelling the HoloSurge project towards enhancing hologram technology for surgical planning.
Enhancing Surgical Precision with HoloCare’s 3D Hologram Technology
The core focus of the HoloSurge project is to advance the capabilities of HoloCare’s interactive 3D hologram technology. This innovative technology holds the promise of mitigating surgical risks and enhancing patient outcomes through improved spatial perceptions for surgeons. By generating real-time 3D holograms of a patient’s organs, surgeons gain a comprehensive understanding that facilitates precise surgical planning tailored to each patient’s unique anatomy.
The utilization of HoloCare software equips surgeons with enhanced spatial awareness, enabling them to execute operations more efficiently and accurately. This heightened precision translates into reduced wait times, improved patient outcomes, and enhanced clinician well-being. Initial trials of the technology for liver surgeries at various European hospitals, including Leeds Teaching Hospitals NHS Trust, have already demonstrated remarkable results. Notably, a 74% reduction in organ alignment time during surgery was observed when utilizing HoloCare’s AR images in comparison to traditional MRI scans.
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Empowering Collaborative Decision-Making through Augmented Reality
The delivery of this cutting-edge technology through augmented reality headsets empowers surgeons to manipulate, rotate, and enlarge holograms for a comprehensive organ view. Moreover, the accessibility and interactivity of the hologram extend beyond the operating room, allowing remote individuals to engage with the holographic representation in real-time. This collaborative feature serves to enhance decision-making processes by facilitating multi-disciplinary team access to external specialists’ knowledge.
Professor David Jayne, a distinguished figure in the field of surgery at the University of Leeds and Leeds Teaching Hospitals NHS Trust, expressed enthusiasm for the transformative potential of HoloCare technology in cancer patient treatment. The profound anatomical insights afforded by this technology hold the key to executing more precise surgeries, thereby improving cancer outcomes for patients.
Propelling Future Innovations in Surgical Care
Over the course of four years, the collaborative efforts of the HoloSurge partners will focus on seamlessly integrating hologram technology into existing surgical workflows. This comprehensive approach encompasses regulatory compliance, clinical validation, and technical optimization to pave the way for widespread adoption in liver and pancreatic cancer surgeries. Dr. Thomas Lango, chief scientist at St Olavs Hospital and SINTEF in Trondheim, Norway, emphasized the transformative potential of merging various data sources into holograms for minimally invasive procedures. This convergence is set to revolutionize clinical practices by empowering clinicians with unparalleled precision and 3D insights, thereby enhancing image-guided medical procedures, collaboration, and training of future experts.
Looking ahead, HoloCare aims to overlay holograms directly onto patients during surgery as a reference point to further refine accuracy and intraoperative navigation. This ambitious endeavor holds the promise of revolutionizing surgical practices and setting new benchmarks in precision and patient care.
The HoloSurge project, propelled by the substantial Horizon Europe grant, stands as a beacon of innovation in the realm of surgical planning. With a steadfast commitment to harnessing advanced hologram technology, the project is poised to redefine surgical precision, patient outcomes, and the collaborative landscape of healthcare.
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