Schneider M, Kunz C, Pal'a A, Wirtz CR, Mathis-Ullrich F, Hlavac M (2021)
Publication Type: Journal article
Publication year: 2021
Book Volume: 50
Pages Range: 1-7
Journal Issue: 1
DOI: 10.3171/2020.10.FOCUS20779
OBJECTIVE Placement of a ventricular drain is one of the most common neurosurgical procedures. However, a higher rate of successful placements with this freehand procedure is desirable. The authors’ objective was to develop a compact navigational augmented reality (AR)–based tool that does not require rigid patient head fixation, to support the surgeon during the operation. METHODS Segmentation and tracking algorithms were developed. A commercially available Microsoft HoloLens AR headset in conjunction with Vuforia marker-based tracking was used to provide guidance for ventriculostomy in a custom-made 3D-printed head model. Eleven surgeons conducted a series of tests to place a total of 110 external ventricular drains under holographic guidance. The HoloLens was the sole active component; no rigid head fixation was necessary. CT was used to obtain puncture results and quantify success rates as well as precision of the suggested setup. RESULTS In the proposed setup, the system worked reliably and performed well. The reported application showed an overall ventriculostomy success rate of 68.2%. The offset from the reference trajectory as displayed in the hologram was 5.2 ± 2.6 mm (mean ± standard deviation). A subgroup conducted a second series of punctures in which results and precision improved significantly. For most participants it was their first encounter with AR headset technology and the overall feedback was positive. CONCLUSIONS To the authors’ knowledge, this is the first report on marker-based, AR-guided ventriculostomy. The results from this first application are encouraging. The authors would expect good acceptance of this compact navigation device in a supposed clinical implementation and assume a steep learning curve in the application of this technique. To achieve this translation, further development of the marker system and implementation of the new hardware generation are planned. Further testing to address visuospatial issues is needed prior to application in humans. https://thejns.org/doi/abs/10.3171/2020.10.FOCUS20779
APA:
Schneider, M., Kunz, C., Pal'a, A., Wirtz, C.R., Mathis-Ullrich, F., & Hlavac, M. (2021). Augmented reality–assisted ventriculostomy. Neurosurgical Focus, 50(1), 1-7. https://doi.org/10.3171/2020.10.FOCUS20779
MLA:
Schneider, Max, et al. "Augmented reality–assisted ventriculostomy." Neurosurgical Focus 50.1 (2021): 1-7.
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