TY - JOUR
T1 - Comparing augmented reality-assisted and freehand external ventricular drain placement
T2 - a multicenter randomized controlled crossover phantom study
AU - van Doormaal, Jesse A.M.
AU - Colombo, Elisa
AU - van der Zee, Jasper M.
AU - Maathuis, Wouter D.
AU - Bot, Maarten
AU - O’Donnell, Patrick
AU - Burhani, Bachtiar
AU - Regli, Luca
AU - Robe, Pierre A.J.T.
AU - Hoving, Eelco W.
AU - van Doormaal, Tristan P.C.
N1 - © 2025. The Author(s).
PY - 2025/12/24
Y1 - 2025/12/24
N2 - BACKGROUND: External ventricular drain (EVD) placement is a common neurosurgical procedure with high rates of misplacement when performed using the freehand technique. With augmented reality (AR), the accuracy of EVD placement could be improved by providing a 3-D overlay, guiding optimal placement using a virtual trajectory superimposed over the patient. In this study, we aimed to assess the efficacy and usability of an AR application for assisting EVD placements which supported trajectory planning, point-based image-to-patient registration and 3-D stereoscopic projection.METHOD: We conducted a randomized controlled crossover trial involving 15 neurosurgical residents and one neurosurgeon, who performed 236 EVD procedures (118 AR-assisted and 118 freehand) on biomimetic phantoms. EVD placement accuracy was evaluated using the Kakarla scale, distance-to-target, angular inaccuracy, and depth inaccuracy. The total procedural time was recorded. The user experience was evaluated using the NASA Task Load Index (NASA-TLX) and the Usefulness, Satisfaction, and Ease of Use (USE) questionnaire.RESULTS: AR-assisted placement achieved significantly higher rates of optimal placement (Kakarla grade 1: 57.6% vs 37.3%; p < .001), lower rates of erroneous placement (Kakarla grade 3: 21.2% vs 40.7%; p < .001), a lower distance-to-target (median, 7.2 mm vs 11.4 mm; p < .001) and lower angular inaccuracy (median, 5.58° vs 7.60°; p < .001). Procedural time was longer for AR (median, 7 min 30 s vs 1 min 11 s; p < .001). Participants rated the AR system favorably on the USE for ease of learning (mean, 6.09/7 [SD, 0.94]) and satisfaction (mean, 6.45/7 [SD, 0.69]), while NASA-TLX scores indicated similar workloads between AR and freehand techniques.CONCLUSIONS: AR improves the accuracy of EVD placement compared to the freehand technique, which is expected to improve the efficacy in clinical settings. It increases total procedural time but remains within clinically acceptable limits and provides favorable usability.
AB - BACKGROUND: External ventricular drain (EVD) placement is a common neurosurgical procedure with high rates of misplacement when performed using the freehand technique. With augmented reality (AR), the accuracy of EVD placement could be improved by providing a 3-D overlay, guiding optimal placement using a virtual trajectory superimposed over the patient. In this study, we aimed to assess the efficacy and usability of an AR application for assisting EVD placements which supported trajectory planning, point-based image-to-patient registration and 3-D stereoscopic projection.METHOD: We conducted a randomized controlled crossover trial involving 15 neurosurgical residents and one neurosurgeon, who performed 236 EVD procedures (118 AR-assisted and 118 freehand) on biomimetic phantoms. EVD placement accuracy was evaluated using the Kakarla scale, distance-to-target, angular inaccuracy, and depth inaccuracy. The total procedural time was recorded. The user experience was evaluated using the NASA Task Load Index (NASA-TLX) and the Usefulness, Satisfaction, and Ease of Use (USE) questionnaire.RESULTS: AR-assisted placement achieved significantly higher rates of optimal placement (Kakarla grade 1: 57.6% vs 37.3%; p < .001), lower rates of erroneous placement (Kakarla grade 3: 21.2% vs 40.7%; p < .001), a lower distance-to-target (median, 7.2 mm vs 11.4 mm; p < .001) and lower angular inaccuracy (median, 5.58° vs 7.60°; p < .001). Procedural time was longer for AR (median, 7 min 30 s vs 1 min 11 s; p < .001). Participants rated the AR system favorably on the USE for ease of learning (mean, 6.09/7 [SD, 0.94]) and satisfaction (mean, 6.45/7 [SD, 0.69]), while NASA-TLX scores indicated similar workloads between AR and freehand techniques.CONCLUSIONS: AR improves the accuracy of EVD placement compared to the freehand technique, which is expected to improve the efficacy in clinical settings. It increases total procedural time but remains within clinically acceptable limits and provides favorable usability.
KW - Augmented reality
KW - External ventricular drain
KW - Image-guided neurosurgery
KW - Drainage/methods
KW - Augmented Reality
KW - Humans
KW - Ventriculostomy/methods
KW - Male
KW - Cross-Over Studies
KW - Adult
KW - Female
KW - Neurosurgical Procedures/methods
KW - Phantoms, Imaging
UR - https://www.scopus.com/pages/publications/105026045748
UR - https://www.mendeley.com/catalogue/c0121bbb-1ac7-3148-a5ca-c56a7d8f328e/
U2 - 10.1007/s00701-025-06738-7
DO - 10.1007/s00701-025-06738-7
M3 - Article
C2 - 41441876
AN - SCOPUS:105026045748
SN - 0001-6268
VL - 167
JO - Acta Neurochirurgica
JF - Acta Neurochirurgica
IS - 1
M1 - 336
ER -