DTI reveals brain connection to writers cramp

Diffusion tensor imaging (DTI) has revealed that abnormalities in the fibers connecting different brain areas may contribute to muscle disorders such as writer's cramp, according to a report in the April issue of Archives of Neurology.

Previous studies of individuals with writer's cramp have identified changes in the gray matter of several brain areas, according to background information in the article. These include the basal ganglia (structures that help control and start movement), sensorimotor cortex (controls sensory and motor functions), thalamus (coordinates multiple impulses including some related to the senses) and cerebellum (controls voluntary movements, posture and balance).

Christine Delmaire, MD, of Centre Hospitalier Régional Universitaire Roger Salengro in Lille, France, and Institut National de la Santé et de la Récherche Médicale in Paris, studied 26 right-handed patients with writer's cramp and 26 right-handed control participants who were the same sex and age but did not have writer's cramp. All participants underwent diffusion-tensor MRI, which has been shown to assess the status of white matter.

The DTI scans of patients with writer's cramp revealed areas of abnormalities in the white matter of nerve pathways connecting the main sensorimotor cortex to brain areas below the cortex, such as the thalamus. The same abnormalities were not observed in healthy controls.

The results showed that diffusion abnormalities, which are present in fiber tracts connecting the primary sensorimotor areas with subcortical structures in writer's cramp, which strengthen the role of the corticosubcortical pathways in the pathophysiologic mechanisms of writer's cramp.

"In conclusion, this study suggests that writer's cramp is associated with microstructural changes involving fibers that carry afferents [information from senses to the brain] and efferents [motor information from the brain to the muscles] to the primary sensorimotor cortex," the authors wrote. "However, it is unknown how these changes relate to the physiopathology of the disease."

The study was supported by grants from the Clinical Investigation Center of the Salpêtrière Hospital, the Action Concertée Incitative 2001, the IFR49, the INSERM French Dystonia Network 19 and GIS maladies rares and the Action de Recherche Cooperative DMRI 2007.

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