Neurology
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The study of sudomotor function represents a useful tool to evaluate autonomic disorders. Currently available tests allow either the measurement of sweat output from the whole body or selected small skin locations over time, or quantification of the number and size of sweat drops at a fixed time after stimulation. We devised a dynamic sweat test (DST) that measures at the same time sweat gland density, distribution of active glands, and sweat rate, and applied it to the evaluation of sudomotor function in diabetes. ⋯ Dynamic sweat test is an easy-to-perform, informative method to study sudomotor function. It provides the ability to detect subtle functional changes occurring in the early stages of diabetic neuropathy.
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Although subtraction ictal SPECT coregistered to MRI (SISCOM) is clinically useful in epilepsy surgery evaluation, it does not determine whether the ictal-interictal subtraction difference is statistically different from the expected random variation between 2 SPECT studies. We developed a statistical parametric mapping and MRI voxel-based method of analyzing ictal-interictal SPECT difference data (statistical ictal SPECT coregistered to MRI [STATISCOM]) and compared it with SISCOM. ⋯ Statistical ictal SPECT coregistered to MRI (STATISCOM) was superior to subtraction ictal SPECT coregistered to MRI for seizure localization before temporal lobe epilepsy (TLE) surgery. STATISCOM localization to the correct TLE subtype was prognostically important for postsurgical seizure freedom.