Towards webcam-based tracking for interventional navigation. SPIE Medical Imaging 2018: Image-Guided Procedures, Robotic Interventions, and Modeling.(2018).
Design of a predictive targeting error simulator for MRI-guided prostate biopsy. Medical Imaging 2010: Visualization, Image-Guided Procedures, and Modeling. 76251A-1 - 76251A-8.(2010).
Prostate brachytherapy seed localization using a mobile C-arm without tracking. SPIE Medical Imaging 2009: Visualization, Image-Guided Procedures, and Modeling, Procedings. 7261, na.(2009).
An inexpensive system for competency-based pericardiocentesis training. 14th Annual Imaging Network Ontario Symposium (ImNO).(2016).
Visualization, Planning, and Monitoring Software for MRI-Guided Prostate Intervention Robot. Proceedings Lecture Notes in Computer Science Medical Image Computing and Computer-Assisted Intervention (MICCAI). 3217, 73-80.(2004).
Towards portable image guidance and automatic patient registration using an RGB-D camera and video projector. Medical Imaging 2020: Image-Guided Procedures, Robotic Interventions and Modeling. 11315,(2020).
Open-Source Surface Mesh-Based Ultrasound Simulator. CARS 2013. 8, 156.(2013).
The Perk Tutor Training Platform Integrated with Simulated Ultrasound. 6th NCIGT and NIH Image Guided Therapy Workshop.(2013).
Open Source Ultrasound Simulation Using Surface Meshes. ImNO2013 - Imaging Network Ontario Symposium.(2013).
Automatic fiducial localization in ultrasound images for a thermal ablation validation platform. SPIE Medical Imaging. 7964, 796421.(2011).
Open-source surface mesh-based ultrasound-guided spinal intervention simulator. International Journal of Computer Assisted Radiology and Surgery. 8, 1043-51.(2013).
Step-wise identification of ultrasound-visible anatomical landmarks for 3D visualization of scoliotic spine. SPIE Medical Imaging 2019: Image-Guided Procedures, Robotic Interventions, and Modeling. 10951,(2019).
Ultrasound-based vertebral landmark localization using deformable spine models. 16th Annual Imaging Network Ontario Symposiuim.(2018).
Real-Time, Tracked, Mobile Augmented Reality Display for Surgical Navigation: Usability Study on Simulated Patients. The 9th IGT Workshop.(2017).
AUGMENTED REALITY TRAINING PLATFORM FOR PLACEMENT OF NEUROSURGICAL BURR HOLES. School of Computing. Masters,(2019).
Visual aid for identifying vertebral landmarks in ultrasound. SPIE Medical Imaging 2018: Image-Guided Procedures, Robotic Interventions, and Modeling. 10576, 105760Z.(2018).
Real-time self-calibration of a handheld augmented reality overlay system. 14th Annual Imaging Network Ontario Symposium (ImNO).(2016).
Assessment of intraoperative neurosurgical planning with the Microsoft HoloLens. 17th Annual Imaging Network Ontario Symposium (ImNO).(2019).
Evaluation of a mobile, real-time, tracked augmented reality display for surgical navigation. 15th Annual Imaging Network Ontario Symposiuim.(2017).
Usability of a real-time tracked augmented reality display system in musculoskeletal injections. SPIE Medical Imaging 2017: Image-Guided Procedures, Robotic Interventions, and Modeling.(2017).
Augmented reality training platform for neurosurgical burr hole localization. Journal of Medical Robotics Research. 4, 1942001-1 - 1942001-13.(2019).
Real-time self-calibration of a tracked augmented reality display. SPIE Medical Imaging 2016. 9786,(2016).
Percutaneous nephrostomy for dummies: electromagnetic needle guidance with tracked ultrasound snapshots in a simulation model. 2014 Annual Meeting of the American Urological Association.(2014).
Sonographic accuracy as a novel tool for point of care ultrasound competency assessment. Academic Emergency Medicine Education and Training. 1, 316-324.(2017).
PLUS Model Catalog: A library of 3D-printable models. 15th Annual Imaging Network Ontario Symposiuim.(2017).