LOS ANGELES (Jun. 24, 2014) — Although deep brain stimulation can be an effective therapy for dystonia – a potentially crippling movement disorder – the treatment isn’t always effective, or benefits may not be immediate. Precise placement of DBS electrodes is one of several factors that can affect results, but few studies have attempted to identify the “sweet spot,” where electrode placement yields the best results. Researchers led by investigators at Cedars-Sinai, using a complex set of data from records and imaging scans of patients who have undergone successful DBS implantation, have created 3-D, computerized models that map the brain region involved in dystonia. The models identify an anatomical target for further study and provide information for neurologists and neurosurgeons to consider when planning surgery and making device programming decisions.
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