Towards accounting for intraoperative spine motion: a simulation study of registration between stereovision surfaces.
William R. WarnerXiaoyao FanRyan B. DukeKristen L. ChenHaley StonerChen LiShaoju WuSongbai JiSohail K. MirzaKeith D. PaulsenPublished in: Medical Imaging: Image-Guided Procedures (2023)
Keyphrases
- simulation study
- stereo vision
- intraoperative
- intra operatively
- brain surface
- tissue deformation
- image guided
- clinical applications
- surface registration
- computer assisted
- x ray
- image guided interventions
- pre operative
- motion tracking
- biomechanical model
- stereo matching
- image sequences
- cardiac motion
- vision system
- respiratory motion
- ct data
- minimally invasive
- mri data
- finite element
- beating heart
- cortical surface
- mri scans
- monte carlo
- motion model
- optical flow
- deformable models
- registration accuracy
- image registration
- imaging modalities
- soft tissue
- motion estimation
- minimally invasive surgery
- mr imaging
- surgical procedures
- cardiac cycle
- real time
- human motion
- motion field
- position and orientation
- light source
- magnetic resonance images
- medical imaging
- rigid motion
- surface reconstruction
- ct scans
- patient specific