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Clinical Trial Summary

Task-specific focal dystonias are characterized by selective activation of dystonic movements during performance of highly learned motor tasks, such as writing or playing a musical instrument. To date, there is only limited knowledge about the distinct neural abnormalities that lead to the development of task-specificity in focal dystonias, which affect similar muscle groups but result in different clinical manifestations, such as writer's cramp vs. pianist's dystonia or spasmodic dysphonia vs. singer's dystonia. Our goal is to dissect the pathophysiological mechanisms underlying the phenomenon of task specificity in isolated focal dystonias using multi-level brain network analysis in conjunction with neuropathological examination of postmortem brain tissue from patients with dystonia. Rather than viewing these disorders as interesting curiosities, understanding the biology of task-specific activation of motor programs is central to understanding dystonia.


Clinical Trial Description

Task-specific primary focal dystonias (tsPFDs) are characterized by selective activation of dystonic movements during performance of highly learned motor tasks, such as writing, playing a musical instrument, speaking, or singing. Despite the recent advances in describing the clinical features of dystonia, there is a fundamental gap in understanding the neural abnormalities underlying the development of tsPFDs, which affect the same muscles but result in different clinical manifestations as in writer's cramp vs. pianist's dystonia or spasmodic dysphonia vs. singer's dystonia. Continued existence of this gap is an important problem because it renders us unable to differentiate between primary and secondary brain changes contributing to the tsPFD pathophysiology and to develop novel treatment options targeting disorder-specific brain alterations. The objective of this application is to identify the brain mechanisms underlying the phenomenon of task specificity in two representative groups of patients with writer's cramp vs. musician's hand dystonia and spasmodic dysphonia vs. singer's laryngeal dystonia using a novel approach of combined clinico-behavioral examination, brain network analysis and quantitative neuropathology of postmortem brain tissue. Our central hypothesis is that each tsPFD is characterized by distinct brain abnormalities, which selectively affect the focal segments of brain networks responsible for the performance of the respective motor task. The rationale for the proposed research is that identification of tsPFD-specific brain changes and associated neuropathology will clarify the neural mechanisms (primary vs. secondary) contributing to the clinical manifestation of these disorders and thus explain the phenomenon of tsPFDs. The obtained results are expected to provide strong scientific bases for the next series of studies directed towards identification and validation of novel pharmacological and/or surgical therapies for these patients. The researchers will pursue the following two specific aims: (1) determine distinct features of brain functional network abnormalities underlying task-specificity in different tsPFDs, and (2) establish structural correlates of functional neuroimaging abnormalities in tsPFDs. The proposed research is significant because it is expected to establish scientific evidence that tsPFD is a network disorder with abnormalities following distinct patterns in different tsPFDs and certain abnormalities showing structure-function correlations are associated with underlying neuropathology. By converging the results from multimodal cross-disciplinary studies to a coherent and pathophysiologically meaningful picture, the researchers will be well positioned to identify primary vs. secondary changes in tsPFDs and establish a scientific framework for the development of diagnostic biomarkers and novel treatment options for these disorders. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03042962
Study type Observational
Source Massachusetts Eye and Ear Infirmary
Contact
Status Completed
Phase
Start date August 1, 2015
Completion date May 31, 2022

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