<p>Essential tremor (ET), among the most common movement disorders, is characterized by 8–12&#xa0;Hz action tremor of the upper extremities. Cognitive dysfunction is increasingly recognized. Postmortem studies of anterior cerebellar cortex, which plays a major role in motor function, have systematically identified morphologic changes centered on Purkinje cells (PCs) and adjacent neuronal connections, distinguishing ET from controls. However, the cerebellar cortex is compartmentalized into distinct functional anatomic regions, including control of cognition in posterior lobe. No systematic study of this posterior region has been undertaken in ET. Leveraging resources of the Essential Tremor Centralized Brain Repository, we compared the pathology across anterior and posterior hemispheric cerebellar cortices in each brain in a postmortem series of 123 brains in ET (<i>n</i> = 80) and controls (<i>n</i> = 43). We used 11 quantitative morphologic metrics that reflected PC loss, heterotopic PCs, PC dendritic changes, PC axonal changes (torpedoes, torpedo-associated and non-torpedo related), basket cell axonal hypertrophy, and climbing fiber-PC puncta changes. These metrics distinguished ET cases from controls in both anterior (11/11 metrics) and posterior regions (10/11 metrics) (<i>p</i> values 0.045 to &lt; 0.0001), and 10/11 metrics demonstrated a greater burden of pathology in the ET anterior versus ET posterior cerebellar region (<i>p</i> values 0.045 to &lt; 0.0001). Regional differences among controls were present to a lesser extent than in ET (6/11 metrics; <i>p</i> values 0.035 to &lt; 0.0001). In a principal component analysis, these combined metrics segregated control and ET cases according to both diagnosis and cerebellar region. This is the first study to carefully document that pathology in the ET cerebellum extends beyond the anterior cerebellar region to also involve a posterior cerebellar region. In line with the prominent motor features of ET, the burden of cerebellar pathology was greater in the anterior region. These results advance our nascent understanding of the underlying neuropathological substrate of this highly prevalent disease.</p>

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Comparative study of the pathology in anterior versus posterior hemispheric regions of cerebellum in essential tremor and controls

  • Jessica B. Musacchio-Perrucci,
  • Regina T. Martuscello,
  • Sophia I. Betzios,
  • Roberto S. Hernandez,
  • Sheng-Han Kuo,
  • Stephanie Cosentino,
  • Hirofumi Fujita,
  • Elan D. Louis,
  • Phyllis L. Faust

摘要

Essential tremor (ET), among the most common movement disorders, is characterized by 8–12 Hz action tremor of the upper extremities. Cognitive dysfunction is increasingly recognized. Postmortem studies of anterior cerebellar cortex, which plays a major role in motor function, have systematically identified morphologic changes centered on Purkinje cells (PCs) and adjacent neuronal connections, distinguishing ET from controls. However, the cerebellar cortex is compartmentalized into distinct functional anatomic regions, including control of cognition in posterior lobe. No systematic study of this posterior region has been undertaken in ET. Leveraging resources of the Essential Tremor Centralized Brain Repository, we compared the pathology across anterior and posterior hemispheric cerebellar cortices in each brain in a postmortem series of 123 brains in ET (n = 80) and controls (n = 43). We used 11 quantitative morphologic metrics that reflected PC loss, heterotopic PCs, PC dendritic changes, PC axonal changes (torpedoes, torpedo-associated and non-torpedo related), basket cell axonal hypertrophy, and climbing fiber-PC puncta changes. These metrics distinguished ET cases from controls in both anterior (11/11 metrics) and posterior regions (10/11 metrics) (p values 0.045 to < 0.0001), and 10/11 metrics demonstrated a greater burden of pathology in the ET anterior versus ET posterior cerebellar region (p values 0.045 to < 0.0001). Regional differences among controls were present to a lesser extent than in ET (6/11 metrics; p values 0.035 to < 0.0001). In a principal component analysis, these combined metrics segregated control and ET cases according to both diagnosis and cerebellar region. This is the first study to carefully document that pathology in the ET cerebellum extends beyond the anterior cerebellar region to also involve a posterior cerebellar region. In line with the prominent motor features of ET, the burden of cerebellar pathology was greater in the anterior region. These results advance our nascent understanding of the underlying neuropathological substrate of this highly prevalent disease.