Application of Extended Reality (Virtual Reality and Mixed Reality) Technology in Laparoscopic Liver Resections

Naito, Shigetoshi; Kajiwara, Masatoshi; Nakashima, Ryo; Sasaki, Takahide; Hasegawa, Suguru

doi:10.7759/cureus.44520

Cited by 3 publications

(2 citation statements)

References 19 publications

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“…Three papers collectively examined the application of extended reality (XR), augmented reality (AR), and VR technologies with a focus on enhancing surgical precision and patient outcomes. The first paper showcases the effectiveness of XR in laparoscopic liver resections [15]. XR technology has improved surgical visualization and anatomical recognition, leading to successful outcomes without the need to convert to open surgery.…”

Section: Discussionmentioning

confidence: 99%

Developing a Virtual Reality Simulation System for Preoperative Planning of Robotic-Assisted Thoracic Surgery

Ujiie,

Chiba,

Yamaguchi

et al. 2024

JCM

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Background. Robotic-assisted thoracic surgery (RATS) is now standard for lung cancer treatment, offering advantages over traditional methods. However, RATS’s minimally invasive approach poses challenges like limited visibility and tactile feedback, affecting surgeons’ navigation through com-plex anatomy. To enhance preoperative familiarization with patient-specific anatomy, we devel-oped a virtual reality (VR) surgical navigation system. Using head-mounted displays (HMDs), this system provides a comprehensive, interactive view of the patient’s anatomy pre-surgery, aiming to improve preoperative simulation and intraoperative navigation. Methods. We integrated 3D data from preoperative CT scans into Perspectus VR Education software, displayed via HMDs for in-teractive 3D reconstruction of pulmonary structures. This detailed visualization aids in tailored preoperative resection simulations. During RATS, surgeons access these 3D images through Tile-ProTM multi-display for real-time guidance. Results. The VR system enabled precise visualization of pulmonary structures and lesion relations, enhancing surgical safety and accuracy. The HMDs offered true 3D interaction with patient data, facilitating surgical planning. Conclusions. VR sim-ulation with HMDs, akin to a robotic 3D viewer, offers a novel approach to developing robotic surgical skills. Integrated with routine imaging, it improves preoperative planning, safety, and accuracy of anatomical resections. This technology particularly aids in lesion identification in RATS, optimizing surgical outcomes.

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Section: Discussionmentioning

confidence: 99%

Developing a Virtual Reality Simulation System for Preoperative Planning of Robotic-Assisted Thoracic Surgery

Ujiie,

Chiba,

Yamaguchi

et al. 2024

JCM

View full text Add to dashboard Cite

show abstract

“…In the last few years, technology has been developing new software to analyze pre-operative radiological images. Likewise, the HoloLens2 ® is an optical see-through head-mounted display that enables the projection of virtual content onto the user’s real-world field of vision allowing the surgeon to compare the hologram with the images predicted and observed from the laparoscopic monitor ( 6 ). Thus, this technology allows to visualize the structure to be resected or not with the awareness of the actual surgery.…”

mentioning

confidence: 99%

The importance of preoperative imaging in living-donor hepatectomy

Rayar,

Levi Sandri

2024

Hepatobiliary Surg Nutr

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Apple Vision Pro and Its Implications in Mohs Micrographic Surgery: A Narrative Review

Kaye,

Islam,

Islam

et al. 2024

Cureus

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Mohs micrographic surgery (MMS) is a precise and effective technique for treating skin cancers, necessitating high accuracy and real-time decision-making to ensure complete tumor removal while preserving healthy tissue. The introduction of the Apple Vision Pro (AVP), an advanced mixed-reality headset, presents a potential technological advancement in surgical practice. The present investigation explores the integration of AVP into Mohs surgery, focusing on its potential to enhance preoperative planning, intraoperative guidance, and postoperative analysis. The AVP's high-resolution displays, advanced eye-tracking technology, and real-time data overlay capabilities may assist in meticulous surgical planning and execution. In the preoperative phase, AVP enables the creation and manipulation of detailed 3D models, providing comprehensive visualizations of tumor margins and critical structures. During surgery, AVP's real-time data overlay aids in precise tumor excision and spatial orientation, reducing errors and improving outcomes. Postoperatively, the AVP facilitates detailed procedural reviews and serves as a robust educational tool for surgical trainees. Despite its promising applications, challenges such as real-time resolution limitations, potential eye strain from prolonged use, and high costs must be addressed for widespread clinical adoption. This review highlights the transformative potential of AVP in Mohs surgery and underscores the need for further research to optimize integration and maximize benefits in dermatological procedures.

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Application of Extended Reality (Virtual Reality and Mixed Reality) Technology in Laparoscopic Liver Resections

Cited by 3 publications

References 19 publications

Developing a Virtual Reality Simulation System for Preoperative Planning of Robotic-Assisted Thoracic Surgery

Developing a Virtual Reality Simulation System for Preoperative Planning of Robotic-Assisted Thoracic Surgery

The importance of preoperative imaging in living-donor hepatectomy

Apple Vision Pro and Its Implications in Mohs Micrographic Surgery: A Narrative Review

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