During the last decades deep brain stimulation (DBS) has become an important treatment option for a variety of neurological disorders such as drug-intractable dystonia. Yet, the mechanisms of action of DBS are still largely unknown. Dystonia is a heterogenous movement disorder characterized by involuntary muscle contractions causing abnormal movements, postures, or both. The underlying pathophysiological processes remain unclear, but a dysfunction of the basal ganglia circuit is critically involved as supported by the effectiveness of DBS of the globus pallidus internus (GPi) in various types of dystonia. However, the degree of clinical improvement differs among the types of dystonia, as well as from patient to patient, and the delayed response to GPi-DBS in dystonia patients hampers the adjustment and optimization of stimulation parameters. Preclinical studies in suitable animal models can contribute decisively to detect the underlying mechanisms of DBS and biomarkers, to identify new possible stimulation targets and to optimize stimulation patterns. In this review, we give an overview of previous research on DBS in animal models of dystonia. With regard to the aims of research we discuss the opportunities and limitations concerning different available animal models of dystonia and technical challenges.
Keywords: Animal models; Basal ganglia; Deep brain stimulation; Dystonia.
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