Virtual Reality (VR) Simulation and Augmented Reality (AR) Navigation in Orthognathic Surgery: A Case Report

Jo, Ye-Joon; Kim, Jin; Kim, Hyojoon; Moon, Seong-Yong

doi:10.3390/app11125673

Cited by 16 publications

(5 citation statements)

References 23 publications

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“…In orthognathic surgery, an occlusal splint was printed for intraoperative use in maxillary advancement surgery based on a virtual model 56 . In a maxillary tumor removal surgery, a biocompatible patient-specific implant made of polycaprolactone mesh was designed and printed according to the virtual model to replace the bony structure of the orbital floor 57 .…”

Section: Surgical Disciplinesmentioning

confidence: 99%

Three-dimensional technologies in presurgical planning of bone surgeries: current evidence and future perspectives

Portnoy

Koren

Khoury

et al. 2023

International Journal of Surgery

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Background: The recent development of three-dimensional (3D) technologies introduces a novel set of opportunities to the medical field in general, and specifically to surgery. The preoperative phase has proven to be a critical factor in surgical success. Utilization of 3D technologies has the potential to improve preoperative planning and overall surgical outcomes. In this narrative review article, the authors describe existing clinical data pertaining to the current use of 3D printing, virtual reality, and augmented reality in the preoperative phase of bone surgery. Methods: The methodology included keyword-based literature search in PubMed and Google Scholar for original articles published between 2014 and 2022. After excluding studies performed in nonbone surgery disciplines, data from 61 studies of five different surgical disciplines were processed to be included in this narrative review. Results: Among the mentioned technologies, 3D printing is currently the most advanced in terms of clinical use, predominantly creating anatomical models and patient-specific instruments that provide high-quality operative preparation. Virtual reality allows to set a surgical plan and to further simulate the procedure via a 2D screen or head mounted display. Augmented reality is found to be useful for surgical simulation upon 3D printed anatomical models or virtual phantoms. Conclusions: Overall, 3D technologies are gradually becoming an integral part of a surgeon’s preoperative toolbox, allowing for increased surgical accuracy and reduction of operation time, mainly in complex and unique surgical cases. This may eventually lead to improved surgical outcomes, thereby optimizing the personalized surgical approach.

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Section: Surgical Disciplinesmentioning

confidence: 99%

Three-dimensional technologies in presurgical planning of bone surgeries: current evidence and future perspectives

Portnoy

Koren

Khoury

et al. 2023

International Journal of Surgery

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show abstract

“…The systems overlay these models onto real-time streaming video images to provide surgeons with preoperative planning and anatomical information. Different AR-based systems were introduced for the simulation of the reduction of mandibular angle and the simulation of the mandibular reconstructive surgery [28][29][30]. Innovative systems were also developed to simulate mandibulectomy and fibular transplant to the mandibular defect site using 3D patient mesh models.…”

Section: Applications In Clinical Practicementioning

confidence: 99%

“…Even VR was applied in orthognathic surgery in order to train different procedures of orthognathic maxillofacial surgery. To better simulate the surgical procedures the VR system can include and replicate different functions such as bone sawing, drilling, and place fixation with haptic force feedback [28,33]. Moreover, in another VR-based simulation platform, the surgeon can interact with the virtual world naturally using his or her hands by means of a tracked hand-held controller [34].…”

Section: Applications In Clinical Practicementioning

confidence: 99%

Augmented, Virtual and Mixed Reality in Dentistry: A Narrative Review on the Existing Platforms and Future Challenges

et al. 2022

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The recent advancements in digital technologies have led to exponential progress in dentistry. This narrative review aims to summarize the applications of Augmented Reality, Virtual Reality and Mixed Reality in dentistry and describes future challenges in digitalization, such as Artificial Intelligence and Robotics. Augmented Reality, Virtual Reality and Mixed Reality represent effective tools in the educational technology, as they can enhance students’ learning and clinical training. Augmented Reality and Virtual Reality and can also be useful aids during clinical practice. Augmented Reality can be used to add digital data to real life clinical data. Clinicians can apply Virtual Reality for a digital wax-up that provides a pre-visualization of the final post treatment result. In addition, both these technologies may also be employed to eradicate dental phobia in patients and further enhance patient’s education. Similarly, they can be used to enhance communication between the dentist, patient, and technician. Artificial Intelligence and Robotics can also improve clinical practice. Artificial Intelligence is currently developed to improve dental diagnosis and provide more precise prognoses of dental diseases, whereas Robotics may be used to assist in daily practice.

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“…The technological advance from the last decade, enables the introduction of augmented reality in almost every step of the surgery process. In present, many studies [18][19][20][21] illustrate the utilization of AR to visualize the target anatomy, to identify important structures or for tracking based on markers. In [22], the authors proposed the utilization of AR both in preplanning phase and intra-operative phase to enhance the robotic assisted surgery.…”

Section: Introductionmentioning

confidence: 99%

Development of an augmented reality simulator for a robotic system used in single incision laparoscopic surgery

Vaida¹,

Rus²,

Gherman³

et al. 2023

RJTS-AM

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Augmented Reality (AR) became a very useful tool for various domains, with multiple applications in different medical fields, where this technology is integrated in medical training, image-based diagnosis, simulation of medical tasks, or in guiding systems for surgical procedures. The introduction of AR technology in robotic assisted surgery is relatively new and challenging considering the required precision for this type of medical task. The objective of this study is to develop an AR simulator for robotic assisted Single Incision Laparoscopic Surgery (SILS) where the robot performing the procedure is embedded in a virtual environment, providing both an interactive training and a simulation environment. The architecture and particularities of the proposed robot for SILS are analyzed for a better understanding of the structure, to obtain the validation of the kinematic model. The final result is represented in the form of an application which can be operated with Hololens 2 device.

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Virtual Reality (VR) Simulation and Augmented Reality (AR) Navigation in Orthognathic Surgery: A Case Report

Cited by 16 publications

References 23 publications

Three-dimensional technologies in presurgical planning of bone surgeries: current evidence and future perspectives

Three-dimensional technologies in presurgical planning of bone surgeries: current evidence and future perspectives

Augmented, Virtual and Mixed Reality in Dentistry: A Narrative Review on the Existing Platforms and Future Challenges

Development of an augmented reality simulator for a robotic system used in single incision laparoscopic surgery

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