Browsing by Subject "Diffusion"

Now showing items 1-9 of 9

    • Advancing Ultra-High Field Magnetic Resonance Microscopy 
      Hardy, Benjamin Michael; 0000-0001-5217-4924 (2023-07-18)
      Department: Physics
      Magnetic resonance microscopy (MRM) is capable of probing fine structures and complex functions of living tissue. MRM suffers from decreased SNR and long scan times approaching 10s of hours to achieve sub 10 µm isotropic ...
    • Advancing Ultra-High Field Magnetic Resonance Microscopy 
      Hardy, Benjamin Michael; 0000-0001-5217-4924 (2023-07-18)
      Department: Physics
      Magnetic resonance microscopy (MRM) is capable of probing fine structures and complex functions of living tissue. MRM suffers from decreased SNR and long scan times approaching 10s of hours to achieve sub 10 µm isotropic ...
    • Advancing Ultra-High Field Magnetic Resonance Microscopy 
      Hardy, Benjamin Michael; 0000-0001-5217-4924 (2023-07-18)
      Department: Physics
      Magnetic resonance microscopy (MRM) is capable of probing fine structures and complex functions of living tissue. MRM suffers from decreased SNR and long scan times approaching 10s of hours to achieve sub 10 µm isotropic ...
    • Advancing Ultra-High Field Magnetic Resonance Microscopy 
      Hardy, Benjamin Michael; 0000-0001-5217-4924 (2023-07-18)
      Department: Physics
      Magnetic resonance microscopy (MRM) is capable of probing fine structures and complex functions of living tissue. MRM suffers from decreased SNR and long scan times approaching 10s of hours to achieve sub 10 µm isotropic ...
    • Advancing Ultra-High Field Magnetic Resonance Microscopy 
      Hardy, Benjamin Michael; 0000-0001-5217-4924 (2023-07-18)
      Department: Physics
      Magnetic resonance microscopy (MRM) is capable of probing fine structures and complex functions of living tissue. MRM suffers from decreased SNR and long scan times approaching 10s of hours to achieve sub 10 µm isotropic ...
    • Advancing Ultra-High Field Magnetic Resonance Microscopy 
      Hardy, Benjamin Michael; 0000-0001-5217-4924 (2023-07-18)
      Department: Physics
      Magnetic resonance microscopy (MRM) is capable of probing fine structures and complex functions of living tissue. MRM suffers from decreased SNR and long scan times approaching 10s of hours to achieve sub 10 µm isotropic ...
    • Advancing Ultra-High Field Magnetic Resonance Microscopy 
      Hardy, Benjamin Michael; 0000-0001-5217-4924 (2023-07-18)
      Department: Physics
      Magnetic resonance microscopy (MRM) is capable of probing fine structures and complex functions of living tissue. MRM suffers from decreased SNR and long scan times approaching 10s of hours to achieve sub 10 µm isotropic ...
    • Cell Size-Selective MRI for Characterizing Brain Lesions in Rodent Models of Tumor and Radiation Necrosis 
      Devan, Sean Philip; 0000-0002-7869-5063 (2022-05-03)
      Department: Chemical & Physical Biology
      Patients who have undergone radiation therapy for brain metastases often have latent lesions such as recurrent tumor or radiation necrosis. Differentiating these lesions in vivo is critical for providing adequate care, but ...
    • Investigating the Emergent Properties of an Autophagy Protein in Living Cells 
      Kraft, Lewis James (2014-05-27)
      Department: Chemical and Physical Biology
      The ubiquitin-like protein LC3 is a central component of the autophagy pathway where it functions in autophagosome formation and cargo selection. LC3 has an extensive network of interacting proteins, but little is known ...