P Stoeter1, P Roa-Sanchez2, H Speckter3, E Perez-Then4, B Foerster5, C Vilchez3, J Oviedo3, R Rodriguez-Raecke6. 1. Dep. of Radiology, Santo Domingo, Dominican Republic. Electronic address: peter.stoeter@gmx.de. 2. Dep. of Neurology, Santo Domingo, Dominican Republic. 3. Dep. of Radiology, Santo Domingo, Dominican Republic. 4. Dep. of Medical Science, CEDIMAT, Santo Domingo, Dominican Republic. 5. Philips Medical Systems LatAm, Sao Paulo, Brazil. 6. Dep. of Neuroradiology, University Clinic RWTH Aachen, Germany.
Abstract
BACKGROUND: To look for microstructural white matter alterations in patients with dystonia due to Pantothenate Kinase-Associated Neurodegeneration. MATERIAL AND METHODS: We examined 21 genetically confirmed patients and an age-matched group of 21 healthy controls by diffusion tensor imaging. Evaluation of data was performed by tract-based spatial statistics analysis and a voxel-wise comparison of calculated maps of fractional anisotropy. Findings were compared between groups and correlated to the dystonia score of the Burke-Fahn-Marsden Scale (p ≤ 0.05). RESULTS: Patients showed reductions of fractional anisotropy mainly in the periventricular substance surrounding the third ventricle, in the medial part of both putamina and in the frontal white matter including the anterior limbs of the internal capsules and the corpus callosum. Infratentorially, the cerebellar white matter and dorsal parts of the pons and medulla were affected. CONCLUSION: In addition to cortical grey matter changes, we now have a second structural finding pointing to a more widespread affection of cerebral tissue in PKAN dystonia than just the lesion and iron accumulation in the globus pallidus.
BACKGROUND: To look for microstructural white matter alterations in patients with dystonia due to Pantothenate Kinase-Associated Neurodegeneration. MATERIAL AND METHODS: We examined 21 genetically confirmed patients and an age-matched group of 21 healthy controls by diffusion tensor imaging. Evaluation of data was performed by tract-based spatial statistics analysis and a voxel-wise comparison of calculated maps of fractional anisotropy. Findings were compared between groups and correlated to the dystonia score of the Burke-Fahn-Marsden Scale (p ≤ 0.05). RESULTS:Patients showed reductions of fractional anisotropy mainly in the periventricular substance surrounding the third ventricle, in the medial part of both putamina and in the frontal white matter including the anterior limbs of the internal capsules and the corpus callosum. Infratentorially, the cerebellar white matter and dorsal parts of the pons and medulla were affected. CONCLUSION: In addition to cortical grey matter changes, we now have a second structural finding pointing to a more widespread affection of cerebral tissue in PKAN dystonia than just the lesion and iron accumulation in the globus pallidus.