Kohsuke Kudo

Keywords: Contrast mechanisms: Electromagnetic Tissue Properties, Neuro: Brain, Contrast mechanisms: Electromagnetic tissue properties

Magnetic susceptibility is a physical property unique to each substance, affecting the resonance frequency and phase of surrounding protons. T2*-weighted gradient echo (GRE) images and susceptibility-weighted images (SWI) are commonly used in clinical imaging to qualitatively emphasize differences in magnetic susceptibilities, in contrast to quantitative susceptibility mapping (QSM). This presentation discusses the advantages and disadvantages of qualitative imaging compared to QSM, as well as clinical applications such as the detection of hemorrhage (including microbleeds, superficial siderosis, and macro hemorrhage) and the depiction of venous structures (including venous anomalies and ischemic strokes).

Sina Straub

Keywords: Contrast mechanisms: Electromagnetic tissue properties

This course gives an introduction to quantitative susceptibility mapping (QSM). Magnetic susceptibility is a measure of how much a material gets magnetized in an external magnetic field. QSM is ideally computed from multi-echo gradient echo data. Phase data need to be processed to remove phase wraps and to compute the local field from which the susceptibility distribution is calculated.
The learning aims are:

• Learn what the contrast mechanisms for susceptibility imaging of biological tissue are,
• What data need to be acquired for QSM,
• Discuss important acquisition parameters,
• Understand basic steps for the calculation of QSM,
• Applications & Resources.