Generalized Dystonia and Paroxysmal Dystonic Attacks due to a Novel ATP1A3 Variant.

Background: Paroxysmal movement disorders are a heterogeneous group of neurological diseases, better understood in recent years thanks to widely available genetic testing. Case report: A pair of monozygotic twins with dystonia and paroxysmal attacks, resembling paroxysmal non-kinesigenic dyskinesias, due to a novel ATP1A3 variant are reported. The complete resolution of their paroxysms was achieved using levodopa and deep brain stimulation of the internal globus pallidus. Improvement of interictal dystonia was also achieved with this therapy. Discussion: Paroxysmal worsening of movement disorders should be suspected as part of the ATP1A3 spectrum. Treatment outcome might be predicted based on the phenotype.

Beyond dystonia and ataxia: Expanding the phenotype of SQSTM1 mutations.

BACKGROUND: Homozygous sequestomosome-1 gene mutations have been recently linked to neurodegeneration with dystonia, ataxia and gaze palsy. Seven affected families were identified thus far. OBJECTIVE: To describe four new cases with additional phenotypical features. RESULTS: Four affected patients from two unrelated families were identified. Two compound heterozygous variants of the gene (c.257_259delins35 and c.301+1G > T) were found in one family (cases 1 and 2), and homozygous c.823_824delAG variant was identified in cases 3 and 4. In addition to the previously described syndrome characterized by cerebellar ataxia, dystonia, choreoathetosis, cognitive impairment and gaze palsy, two subjects presented with iridoplegia. Furthermore, we report dysautonomic features such as orthostatic hypotension and sudomotor dysfunction, along with other non-motor symptoms. CONCLUSIONS: We expand the phenotype of dystonia caused by Sequestomosome-1 gene by identifying dysautonomic features along with other non-motor symptoms.