The Cerebellum & ET
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Essential tremor (ET) is a progressive and highly prevalent neurologic disease. Along with the tremors, mild to moderate gait ataxia and other signs of cerebellar dysfunction may occur (i.e., subtle saccadic eye movement abnormalities and abnormalities of motor timing) as well as cognitive features, some of which may be due to cerebellar dysfunction. Numerous neuroimaging studies indicate the presence of functional, metabolic, and structural abnormalities in the cerebellum of a patient with ET. In tandem with these clinical and imaging studies, which were gathering increasing support for the notion that the cerebellum and/or cerebellar systems seemed to be at the root of ET, a growing postmortem literature is for the first time beginning to identify microscopic abnormalities in the ET brain, most of which are centered on the Purkinje cells and connected neuronal populations, and are likely to be degenerative. In terms of treatment, most of these pharmacotherapeutic agents serve to enhance GABAergic neurotransmission, further bolstering the notion that ET may very well be a disorder with a primary Purkinje cell dysfunction resulting in reduced cerebellar cortical inhibition. Similarly, the interruption of presumably abnormal cerebellar outflow pathways to the thalamus is the mechanism of deep-brain stimulation surgery, which is highly effective in treating ET. ELAN D LOUIS
Clinical observations electrophysiological, and functional imaging studies including diffusion tension imaging, and voxel-based morphometry, suggest that the cerebellum is involved in the generation of ET. Studies have demonstrated some similar abnormalities in patients with ET and cerebellar disease, such as intention tremor, slowness of goal-directed movements, overshoot of hand movements when reaching a target, disturbed tandem gait, eye movement abnormalities, and balance and motor speech impairment, both clinical and subclinical. Recent findings show high width variability during spiral drawing and display new insights into the pathophysiological mechanisms of cognition in ET, suggesting a primary role of the cerebellum in mediating abnormal interactions between the executive control circuit and the default mode network. The results of a deep brain stimulation (DBS) study in ET patients assessing gait ataxia showed the cerebellar movement disorder of ET is due to a typical cerebellar deficit. The authors hypothesize that DBS affects two major regulating circuits: the cortico-thalamo-cortical loop for tremor reduction and the cerebello-thalamo-cortical pathway for ataxia reduction and ataxia induction. Essential Tremor, the Cerebellum, and Motor Timing: Towards Integrating Them into One Complex Entity Learn More NIH & Elan D. Louis
Clinical observations electrophysiological, and functional imaging studies including diffusion tension imaging, and voxel-based morphometry, suggest that the cerebellum is involved in the generation of ET. Studies have demonstrated some similar abnormalities in patients with ET and cerebellar disease, such as intention tremor, slowness of goal-directed movements, overshoot of hand movements when reaching a target, disturbed tandem gait, eye movement abnormalities, and balance and motor speech impairment, both clinical and subclinical. Recent findings show high width variability during spiral drawing and display new insights into the pathophysiological mechanisms of cognition in ET, suggesting a primary role of the cerebellum in mediating abnormal interactions between the executive control circuit and the default mode network. The results of a deep brain stimulation (DBS) study in ET patients assessing gait ataxia showed the cerebellar movement disorder of ET is due to a typical cerebellar deficit. The authors hypothesize that DBS affects two major regulating circuits: the cortico-thalamo-cortical loop for tremor reduction and the cerebello-thalamo-cortical pathway for ataxia reduction and ataxia induction. Essential Tremor, the Cerebellum, and Motor Timing: Towards Integrating Them into One Complex Entity Learn More NIH & Elan D. Louis