Biomedical Imaging Informatics Research Projects
 
Courses in the Biomedical Imaging Informatics Track

    1. Integrated System for Quantification of Adipose Tissue From Whole Body MRI Scan

    2. Modeling of the da Vinci Robotic Surgical System for Training, Evaluation and Quantification of Surgical Skills.

    3. Vesalius ProjectTM

    4. Visible Human Project Segmentation and Registration Toolkit

    i5. Framework for Evaluating Image Segmentation Methods

    6. Microscope-Based Augmented Reality for Skull Base Neurosurgery

    7. Objective Quantification of Perfusion-Weighted Computer Tomography in the Setting of Acute Aneurysmal Subarachnoid Hemorrhage

    8. Structure-function relationships in the human visual system using diffusion tensor imaging, functional magnetic resonance imaging and visual field testing

    9.Center for Analysis, Visualization and Simulation
 
Heffner Biomedical Imaging Lab

    10. Computer Tomography (CT)
    Modeling of Bone Microstructure
    Contrast Enhancement of Chest CT images
    Lung Module Detection

    11. Magnetic Resonannce Imaging (MRI)
    Functional MRI
    Brain activation detection
    Cardiac functional image
    Cartilage Segmentation of knee
    High Resolution MRI of Physiologic Function in Mice
    Combined MRI Data Acquisition of Multi-Contrast Images
    MRI Fluoroscopy

    12. Positron Emission Tomography (PET)
    Denosing of Cardiac SPECT images
    Acquisition/Reconstruction of PET images

    13. Digital Radiology
    Mass Detection in Digial Mammograms
    RSNA Demostration (1997)
    Optical Imaging of the Breast

    14. Ultrasound
    Denoising and Segmentation of 3D Cardiac Ultrasound
    Characterization/Segmentation of ultrasound images
    Cardiac Ultrasound
 
Functional MRI Research Center

    15. Human Vision:
    The discovery of brain areas involved in visual illusions and depth perceptions.

    16. Human Language:
    The discovery of language-specific areas.

    17. Chronic Pain:
    The discovery of areas sensitive to the relief of chronic pain.

    18. Utility for NueroSurgical Planning:
    Application to patient care.
 
The Hatch Research Center