The effect of augmented reality on the accuracy and learning curve of external ventricular drain placement

Gestel, Frederick Van; Frantz, Taylor; Vannerom, Cédric; Verhellen, Anouk; Gallagher, Anthony G.; Elprama, Shirley; Jacobs, An; Buyl, Ronald; Bruneau, Michaël; Jansen, Bart; Vandemeulebroucke, Jef; Scheerlinck, Thierry; Duerinck, Johnny

doi:10.3171/2021.5.focus21215

Cited by 30 publications

(28 citation statements)

References 29 publications

(38 reference statements)

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“…However, there are several disadvantages that are associated with currently available systems [ 8 , 13 , 14 , 15 , 16 ]. Firstly, there is only the 2D projection of images on the screen requiring the surgeon to translate into a mental 3D image during planning.…”

Section: Introductionmentioning

confidence: 99%

Use of Mixed Reality in Neuro-Oncology: A Single Centre Experience

Jain

Gao

Yeo

et al. 2023

Life

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(1) Background: Intra-operative neuronavigation is currently an essential component to most neurosurgical operations. Recent progress in mixed reality (MR) technology has attempted to overcome the disadvantages of the neuronavigation systems. We present our experience using the HoloLens 2 in neuro-oncology for both intra- and extra-axial tumours. (2) Results: We describe our experience with three patients who underwent tumour resection. We evaluated surgeon experience, accuracy of superimposed 3D image in tumour localisation with standard neuronavigation both pre- and intra-operatively. Surgeon training and usage for HoloLens 2 was short and easy. The process of image overlay was relatively straightforward for the three cases. Registration in prone position with a conventional neuronavigation system is often difficult, which was easily overcome during use of HoloLens 2. (3) Conclusion: Although certain limitations were identified, the authors feel that this system is a feasible alternative device for intra-operative visualization of neurosurgical pathology. Further studies are being planned to assess its accuracy and suitability across various surgical disciplines.

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Section: Introductionmentioning

confidence: 99%

Use of Mixed Reality in Neuro-Oncology: A Single Centre Experience

Jain

Gao

Yeo

et al. 2023

Life

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“…Regarding neuroendovascular treatments, the 3D preoperative planning could help to reduce the number of devices tested, thereby reducing the operative manipulations, the procedure duration, the rate of complications, the radiation exposure, and the cost of the procedure. It could also be useful in endovascular training [ 6 ], as has already been done with virtual reality in open neurosurgery [ 11 , 12 ]. Furthermore, it has also been a useful tool for the patient’s education [ 13 ].…”

Section: Discussionmentioning

confidence: 99%

Pre-Interventional 3D-Printing-Assisted Planning of Flow Disrupter Implantation for the Treatment of an Intracranial Aneurysm

Charbonnier

Primikiris

Billottet

et al. 2022

JCM

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Intrasaccular flow disrupter devices (ISFD) have opened up new ways to treat intracranial aneurysms but choosing the correct size of ISFD can be challenging. We describe the first use of 3D printing to assist in the choice of ISFD, and we report an illustrative case. We developed a technique that uses preoperative angiography to make a plastic model of the aneurysm. We tested the deployment of different sizes of intrasaccular flow disruptor on the 3D model under fluoroscopy. The best devices were then used as the first-line strategy to treat the patient. The preoperative 3D printing helped in the successful selection of a first-line ISFD, which was not the one recommended by the manufacturer. Three-dimensional printing can provide interesting information regarding the treatment of intracranial aneurysms using ISFD. Further studies are needed to fully assess its benefits.

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“…Three ventriculostomy training studies were identified. 11,12,16 Two studies used a HMD, and 1 study used a smart phone display to overlay 3D reconstructed ventricles onto a phantom head. Only 1 study directly compared the use of AR training with traditional training methods.…”

Section: Ventriculostomymentioning

confidence: 99%

Expanding Educational Frontiers in Neurosurgery: Current and Future Uses of Augmented Reality

Olexa

Cohen²,

Alexander³

et al. 2022

Neurosurgery

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BACKGROUND:Augmented reality (AR) technology is a new and promising option to advance and expand neurosurgical training because of recent advances in computer vision technology, improved AR software and hardware, and growing acceptance of this technology in clinical practice.OBJECTIVE:To analyze the current status of AR use cases with the goal of envisioning future uses of AR in neurosurgical education.METHODS:Articles applying to AR technology use in neurosurgical education were identified using PubMed, Google Scholar, and Web of Science databases following the Preferred Reporting Items of Systematic Reviews and Meta-Analyses guidelines. Articles were included for review based on applicable content related to neurosurgical or neuroanatomy training. Assessment of literature quality was completed using standardized MERSQI scoring.RESULTS:The systematic search identified 2648 unique articles. Of these, 12 studies met inclusion criteria after extensive review. The average MERSQI score was 10.2 (SD: 1.7). The most common AR platform identified in this study was the Microsoft Hololens. The primary goals of the studies were to improve technical skills and approaches to surgical planning or improve understanding of neuroanatomy.CONCLUSION:Augmented reality has emerged as a promising training tool in neurosurgery. This is demonstrated in the wide range of cases in technical training and anatomic education. It remains unclear how AR-based training compares directly with traditional training methods; however, AR shows great promise in the ability to further enhance and innovate neurosurgical education and training.

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The effect of augmented reality on the accuracy and learning curve of external ventricular drain placement

Cited by 30 publications

References 29 publications

Use of Mixed Reality in Neuro-Oncology: A Single Centre Experience

Use of Mixed Reality in Neuro-Oncology: A Single Centre Experience

Pre-Interventional 3D-Printing-Assisted Planning of Flow Disrupter Implantation for the Treatment of an Intracranial Aneurysm

Expanding Educational Frontiers in Neurosurgery: Current and Future Uses of Augmented Reality

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