Introduces the fundamentals of spin relaxation in magnetic resonance, covering spin-lattice and spin-spin relaxation, and rotational motion in liquids.
Explores the mechanisms of MRI contrast agents and their applications in imaging blood vessels, tumours, and inflammation, including intracellular contrast agents like Mn-enhanced MRI.
Explores the sensitivity of MRI and ways to enhance it through magnetic field adjustments and different field strengths for various imaging applications.
Introduces spatial information into magnetic resonance imaging, covering static, RF, and gradient fields for spatial encoding and slice-selection techniques.
Explores chemical exchange phenomena in magnetic resonance, covering symmetrical and unsymmetrical exchange, line-broadening effects, and distinct regimes.
Covers the principles and applications of magnetic resonance imaging, including NMR spectroscopy, multi-dimensional imaging, and image contrast mechanisms.
