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Feasibility of object detection for skill assessment in central venous catheterization. SPIE Medical Imaging.(2022).
Feasibility of Real-Time Workflow Segmentation for Tracked Needle Interventions. IEEE Transactions on Biomedical Engineering. 61, 1720-1728.(2014).
Feasibility of using object detection for performance assessment in central venous catherization. Imaging Network of Ontario Symposium.(Submitted).
Force and torque feedback in endoscopic vessel harvesting. Medical Imaging 2020: Image-Guided Procedures, Robotic Inverventions and Modeling. 11315,(2020).
Hole filling with oriented sticks in ultrasound volume reconstruction. J. Med. Imag.. 2,(2015).
Implementation of the PLUS open-source toolkit for translational research of ultrasound-guided intervention systems. Medical Image Computing and Computer-Assisted Intervention (MICCAI 2012) - Systems and Architectures for Computer Assisted Interventions. 1-12.(2012).
Improved temporal calibration of tracked ultrasound: an open-source solution. Journal of Medical Robotics Research. 2, 1750008.(2017).
Increasing the impact of medical image computing using community-based open-access hackathons: The NA-MIC and 3D Slicer experience. Medical Image Analysis. 33, 176-180.(2016).
An inexpensive system for competency-based pericardiocentesis training. 14th Annual Imaging Network Ontario Symposium (ImNO).(2016).
Intraoperative user interface for navigated breast tumor surgery. Computer Assisted Radiology and Surgery, 30th International Congress. 11(Suppl. 1), S108-9.(2016).
Intraoperative visualization and assessment of electromagnetic tracking error. SPIE Medical Imaging 2015. 9415, 94152H-94152H-6.(2015).
Live ultrasound volume reconstruction using scout scanning. SPIE Medical Imaging 2015. 9415, 94152A-94152A-9.(2015).
Localization of the transverse processes in ultrasound for spinal curvature measurement. SPIE Medical Imaging. 10135, 101350I-101350I-7.(2017).
A low-cost system for image-guided computer-navigated pericardiocentesis training. 30th International Congress & Exhibition on Computer Assisted Radiology and Surgery (CARS). Int J CARS (2016) 11 (Suppl 1), S112.(2016).
Machine learning methods for automated technical skills assessment with instructional feedback in ultrasound-guided interventions. International Journal of Computer Assisted Radiology and Surgery.(In Press).
Measurement of electromagnetic tracking error in a navigated breast surgery setup. SPIE Medical Imaging 2016. 9786,(2016).
Mechanically-Controlled Spectroscopic Imaging for Tissue Classification. SPIE Medical Imaging 2019: Image-Guided Procedures, Robotic Interventions, and Modeling. 10951,(2019).
Mobile Image Overlay System for Image Guided Interventions. 6th NCIGT and NIH Image Guided Therapy Workshop.(2013).
MOBILE IMAGE OVERLAY SYSTEM (MIOS) FOR IMAGE GUIDED INTERVENTIONS. 16th Annual Scientific Meeting for Health Science Research Trainees, Faculty of Health Sciences, Queen’s University.(2013).
Monitoring electromagnetic tracking error in computer-navigated breast cancer surgery. 14th Annual Imaging Network Ontario Symposium (ImNO).(2016).
Monitoring electromagnetic tracking error using redundant sensors. SPIE Medical Imaging 2017.(2017).
Monitoring volume changes for breast reconstruction surgery using three dimensional optical surface scanning. Canadian Society of Plastic Surgeons (CSPS) Annual Meeting.(2019).
MR Image Overlay Adjustable Plane System for Musculoskeletal Interventions. ImNO2013 - Imaging Network Ontario Symposium.(2013).
MR Image Overlay Adjustable Plane System for Percutaneous Musculoskeletal Interventions. 4th NCIGT and NIH Image Guided Therapy Workshop. 4,(2011).