Features
- Detects magnetic dipoles in MRI datasets
- Automatically masks out noise by fitting magnitude image to Rician & Gaussian distribution
- Estimates magnetic dipole moment for detected dipoles
- Eliminates unreasonable dipole moments (e.g., too-weak dipoles found in noise, or too-strong dipoles found in air bubbles)
- Works with non-isotropic datasets
- Processes multiple datasets, comparing dipoles quantitatively across them
- Calculates number of dipoles vs. distance from regions of interest (ROIs)
- Experimental: Estimates iron content within magnetic dipoles
- Experimental: Registers dipoles between different time points
- Experimental: Estimates dipole movements between different time points
- Experimental: Estimate 'best-fit' sphere radius for each dipole.
- Advanced: Detection templates: Detect dipoles located off-center of voxel boundaries; Simulate randomly-distributed spins to eliminate aliasing.
Project Samples
License
MIT LicenseFollow MRI-PDQ:Phase Detection & Quantification
You Might Also Like
Plan more projects with Worksection. Use Gantt chart and Kanban boards to organize your projects, get your team onboard and assign tasks and due dates.
Rate This Project
Login To Rate This Project
User Reviews
Be the first to post a review of MRI-PDQ:Phase Detection & Quantification!