Keyword search (4,163 papers available)

"Kersten-Oertel M" Authored Publications:

Title Authors PubMed ID
1 Connect Brain, a Mobile App for Studying Depth Perception in Angiography Visualization: Gamification Study Titov A; Drouin S; Kersten-Oertel M; 41341989
ENCS
2 Surgical hyperspectral imaging: a systematic review Ali HM; Xiao Y; Kersten-Oertel M; 40824764
ENCS
3 Assessment of cognitive load in the context of neurosurgery Di Giovanni DA; Kersten-Oertel M; Drouin S; Collins DL; 40650801
PERFORM
4 Exploring interaction paradigms for segmenting medical images in virtual reality Jones Z; Drouin S; Kersten-Oertel M; 40402355
ENCS
5 CASCADE-FSL: Few-shot learning for collateral evaluation in ischemic stroke Aktar M; Tampieri D; Xiao Y; Rivaz H; Kersten-Oertel M; 40250214
ENCS
6 A database of magnetic resonance imaging-transcranial ultrasound co-registration Alizadeh M; Collins DL; Kersten-Oertel M; Xiao Y; 39920905
SOH
7 Guest editorial: Papers from the 18th joint workshop on Augmented Environments for Computer Assisted Interventions (AE-CAI) at MICCAI 2024: Guest editors' foreword Linte CA; Yaniv Z; Chen E; Drouin S; Kersten-Oertel M; McLeod J; Sarikaya D; Wang J; 39834896
ENCS
8 iSurgARy: A mobile augmented reality solution for ventriculostomy in resource-limited settings Asadi Z; Castillo JP; Asadi M; Sinclair DS; Kersten-Oertel M; 39816703
ENCS
9 Virtual reality-based preoperative planning for optimized trocar placement in thoracic surgery: A preliminary study Harirpoush A; Rakovich G; Kersten-Oertel M; Xiao Y; 39720764
ENCS
10 Correction: LapBot-Safe Chole: validation of an artificial intelligence-powered mobile game app to teach safe cholecystectomy St John A; Khalid MU; Masino C; Noroozi M; Alseidi A; Hashimoto DA; Altieri M; Serrot F; Kersten-Oertel M; Madani A; 39317911
ENCS
11 Education in Laparoscopic Cholecystectomy: Design and Feasibility Study of the LapBot Safe Chole Mobile Game Noroozi M; St John A; Masino C; Laplante S; Hunter J; Brudno M; Madani A; Kersten-Oertel M; 39052314
ENCS
12 A usability analysis of augmented reality and haptics for surgical planning Kazemipour N; Hooshiar A; Kersten-Oertel M; 38942947
ENCS
13 Virtual and Augmented Reality in Ventriculostomy: A Systematic Review Alizadeh M; Xiao Y; Kersten-Oertel M; 38823448
ENCS
14 A decade of progress: bringing mixed reality image-guided surgery systems in the operating room Asadi Z; Asadi M; Kazemipour N; Léger É; Kersten-Oertel M; 38794834
ENCS
15 Papers from the 17th Joint Workshop on Augmented Environments for Computer Assisted Interventions at MICCAI 2023: Guest Editors' Foreword Linte CA; Yaniv Z; Chen E; Dou Q; Drouin S; Kalia M; Kersten-Oertel M; McLeod J; Sarikaya D; 38638501
CONCORDIA
16 Breamy: An augmented reality mHealth prototype for surgical decision-making in breast cancer Najafi N; Addie M; Meterissian S; Kersten-Oertel M; 38638506
ENCS
17 SCANED: Siamese collateral assessment network for evaluation of collaterals from ischemic damage Aktar M; Xiao Y; Tehrani AKZ; Tampieri D; Rivaz H; Kersten-Oertel M; 38364600
ENCS
18 Deep learning for collateral evaluation in ischemic stroke with imbalanced data Aktar M; Reyes J; Tampieri D; Rivaz H; Xiao Y; Kersten-Oertel M; 36635594
ENCS
19 Automatic collateral circulation scoring in ischemic stroke using 4D CT angiography with low-rank and sparse matrix decomposition. Aktar M, Tampieri D, Rivaz H, Kersten-Oertel M, Xiao Y 32662055
ENCS
20 MARIN: an open-source mobile augmented reality interactive neuronavigation system. Léger É; Reyes J; Drouin S; Popa T; Hall JA; Collins DL; Kersten-Oertel M; 32323206
PERFORM
21 Augmented reality mastectomy surgical planning prototype using the HoloLens template for healthcare technology letters. Amini S, Kersten-Oertel M 32038868
PERFORM
22 Cognitive load associations when utilizing auditory display within image-guided neurosurgery. Plazak J, DiGiovanni DA, Collins DL, Kersten-Oertel M 30997635
ENCS
23 Quantifying attention shifts in augmented reality image-guided neurosurgery. Léger É, Drouin S, Collins DL, Popa T, Kersten-Oertel M 29184663
PERFORM
24 Distance sonification in image-guided neurosurgery. Plazak J, Drouin S, Collins L, Kersten-Oertel M 29184665
PERFORM
25 Combining intraoperative ultrasound brain shift correction and augmented reality visualizations: a pilot study of eight cases. Gerard IJ, Kersten-Oertel M, Drouin S, Hall JA, Petrecca K, De Nigris D, Di Giovanni DA, Arbel T, Collins DL 29392162
PERFORM
26 Gesture-based registration correction using a mobile augmented reality image-guided neurosurgery system. Léger É, Reyes J, Drouin S, Collins DL, Popa T, Kersten-Oertel M 30800320
PERFORM

 

Title:Quantifying attention shifts in augmented reality image-guided neurosurgery.
Authors:Léger ÉDrouin SCollins DLPopa TKersten-Oertel M
Link:https://www.ncbi.nlm.nih.gov/pubmed/29184663?dopt=Abstract
DOI:10.1049/htl.2017.0062
Publication:Healthcare technology letters
Keywords:augmented realityaugmented reality image-guided neurosurgerycraniotomy planningdesktop augmented realitymedical image processingmobile augmented realityneurophysiologysurgerytumourtumours
PMID:29184663 Category:Healthc Technol Lett Date Added:2019-06-04
Dept Affiliation: PERFORM
1 Department of Computer Science and Software Engineering & Perform Centre, Concordia University, Montreal, Canada.
2 McConnell Brain Imaging Centre, Montreal Neuro, McGill University, Montréal, Canada.

Description:

Quantifying attention shifts in augmented reality image-guided neurosurgery.

Healthc Technol Lett. 2017 Oct;4(5):188-192

Authors: Léger É, Drouin S, Collins DL, Popa T, Kersten-Oertel M

Abstract

Image-guided surgery (IGS) has allowed for more minimally invasive procedures, leading to better patient outcomes, reduced risk of infection, less pain, shorter hospital stays and faster recoveries. One drawback that has emerged with IGS is that the surgeon must shift their attention from the patient to the monitor for guidance. Yet both cognitive and motor tasks are negatively affected with attention shifts. Augmented reality (AR), which merges the realworld surgical scene with preoperative virtual patient images and plans, has been proposed as a solution to this drawback. In this work, we studied the impact of two different types of AR IGS set-ups (mobile AR and desktop AR) and traditional navigation on attention shifts for the specific task of craniotomy planning. We found a significant difference in terms of the time taken to perform the task and attention shifts between traditional navigation, but no significant difference between the different AR set-ups. With mobile AR, however, users felt that the system was easier to use and that their performance was better. These results suggest that regardless of where the AR visualisation is shown to the surgeon, AR may reduce attention shifts, leading to more streamlined and focused procedures.

PMID: 29184663 [PubMed]




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