Although magnetoencephalography (MEG) and electroencephalography (EEG) have been available for decades, their relative merits are still debated. We examined regional differences in signal-tonoise-ratios (SNRs) of cortical sources in MEG and EEG. Data from four subjects were used to simulate focal and extended sources located on the cortical surface reconstructed from highresolution magnetic resonance images. The SNR maps for MEG and EEG were found to be complementary. The SNR of deep sources was larger in EEG than in MEG, whereas the opposite was typically the case for superficial sources. Overall, the SNR maps were more uniform for EEG than for MEG. When using a noise model based on uniformly distributed random sources on the cortex, the SNR in MEG was found to be underestimated, compared with the maps obtained with noise estimated from actual recorded MEG and EEG data. With extended sources, the total area of cortex in which the SNR was higher in EEG than in MEG was larger than with focal sources. Clinically, SNR maps in a patient explained differential sensitivity of MEG and EEG in detecting epileptic activity. Our results emphasize the benefits of recording MEG and EEG simultaneously.
Although the pathophysiologic mechanism remains unknown, these patients seem to have a distinctive encephalopathy syndrome. MRI is helpful in establishing the diagnosis of this encephalopathy.
The progression of muscular weakness of patients suffering from muscular dystrophies directly correlates with the progressive loss of myofibers, accompanied by fibrosis. Since transforming growth factor beta1 (TGF-beta1) promotes tissue fibrosis, we measured the plasma TGF-beta1 level in patients with various muscular dystrophies in order to determine whether the level is elevated in patients with muscular dystrophy and if the level reflects the severity of tissue fibrosis. The plasma TGF-beta1 level was significantly elevated in patients with Duchenne muscular dystrophy and congenital muscular dystrophy (CMD), but not in those with Becker muscular dystrophy. Growth factors related to muscle fiber regeneration and fibrosis might be a key factor in the progression of muscular dystrophy and could be a target for therapeutic studies.
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