The authors discuss the appropriate FISP (fast imaging with steady-state precession) sequence structure to maintain constant phase at the radio-frequency pulse in the presence of motion. They present preliminary results of its application to head and spine imaging in an effort to maintain contrast between the cerebrospinal fluid (CSF) and the soft tissue. In the usual application of these FISP-like sequences, the gradient structure is modified to avoid unwanted signal (and contrast) variations due to field inhomogeneities. This change makes the signal sensitive to motion with a resulting decrease in signal intensity for moving tissue. The expected high contrast at large flip angles for tissues with low T1/T2 ratios such as CSF is not obtained. The technique discussed here overcomes the effects of field inhomogeneities and compensates for moving spins so that the transverse steady-state equilibrium and hence high contrast are obtained simultaneously.
Fifteen patients with hemophilia, 14 of whom had hemophilic arthropathy, were examined with magnetic resonance (MR) imaging to determine if it could be used to assess hemophilic arthropathy, especially synovial hypertrophy and the status of the articular cartilage. Thirty-five joints of the appendicular skeleton were imaged. Four joints in two patients were clinically normal. Synovial hypertrophy was detected in 28 joints and appeared as areas of low to intermediate signal intensity on T1- and T2-weighted images, with foci of increased signal intensity on T2-weighted images (presumed to be due to areas of fluid or inflammation) in 16 joints. Abnormal articular cartilage was demonstrated in 26 joints; bone lesions, fluid collections, and joint space narrowing could also be seen. MR imaging appears to be useful in depicting the components of hemophilic arthropathy.
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