Cerebellar circuitry is topographically arranged in closed loops with the cerebral cortex. The three cornerstones of clinical ataxia have emerged from studies on connectional anatomy and from clinical/neuropsychological observations, leading to the definition of clinical syndromes encountered in daily practice: (a) the cerebellar motor syndrome (CMS), (b) the vestibulocerebellar syndrome (VCS), and (c) the cerebellar cognitive affective syndrome/Schmahmann syndrome (CCAS/SS). These syndromes are either isolated or coexist, depending on the underlying pathological process and its degree of extension within the cerebellum. Dysmetria is the core feature of cerebellar deficits, encompassing motor dysmetria (hypermetria, hypometria) in CMS, oculomotor dysmetria in VCS, and dysmetria of thought in CCAS/SS. The leading hypothesis is that dysmetria results from errors in building or maintaining internal models, which are inherent to predictive behavior. Errors in prediction would lead to clumsiness and incoordination of limbs, oculomotor impairments, and aberrant cognitive/affective behavior. The cerebellum is currently viewed as a learning machine enriched with multiple plasticity mechanisms, allowing the permanent adaptation to the external world by generating and maintaining predictive operations, from motor to cognitive, affective, emotional, and social operations essential for daily human life.
Keywords: Affective; Cerebellum; Cognitive; Dysmetria; Internal models; Vestibular.
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