Imbalance between thyroid hormones and the dopaminergic system might be central to the pathophysiology of restless legs syndrome: a hypothesis

Data collected from medical literature indicate that dopaminergic agonists alleviate Restless Legs Syndrome symptoms while dopaminergic agonists antagonists aggravate them. Dopaminergic agonists is a physiological regulator of thyroid-stimulating hormone. Dopaminergic agonists infusion diminishes the levels of thyroid hormones, which have the ability to provoke restlessness, hyperkinetic states, tremors, and insomnia. Conditions associated with higher levels of thyroid hormones, such as pregnancy or hyperthyroidism, have a higher prevalence of Restless Legs Syndrome symptoms. Low iron levels can cause secondary Restless Legs Syndrome or aggravate symptoms of primary disease as well as diminish enzymatic activities that are involved in dopaminergic agonists production and the degradation of thyroid hormones. Moreover, as a result of low iron levels, dopaminergic agonists diminishes and thyroid hormones increase. Iron therapy improves Restless Legs Syndrome symptoms in iron deprived patients. Medical hypothesis. To discuss the theory that thyroid hormones, when not counterbalanced by dopaminergic agonists, may precipitate the signs and symptoms underpinning Restless Legs Syndrome. The main cause of Restless Legs Syndrome might be an imbalance between the dopaminergic agonists system and thyroid hormones.

Neurobiology of apathy in Alzheimer's disease / Neurobiologia da apatia na doença de Alzheimer

Apathy is considered the most frequent neuropsychiatric disturbance in dementia and its outcome is generally deleterious. Apathy can be related to a dysfunction of the anatomical-system that supports the generation of voluntary actions, namely the prefrontal cortex and/or the prefrontal-subcortical circuits. In Alzheimer's disease, pathological and neuroimaging data indicate that apathy is likely due to a dysfunction of the medial prefrontal cortex. Accordingly, in this review article, we propose a pathophysiological model to explain apathetic behavior in Alzheimer's disease, combining data from neuroimaging, neuropathology and experimental research on the role of orbito-frontal cortex, anterior cingulate cortex, basal ganglia and dopamine in decision-making neurobiology.

Apatia é considerada a alteração neuropsiquiátrica mais freqüente nas demências e suas conseqüências são habitualmente deletérias. Apatia pode ser relacionada à disfunção do sistema anatômico responsável pela geração de ações voluntárias, conhecido com córtex pré-frontal e/ou circuitos pré-frontais-subcorticais. Na doença de Alzheimer, evidências neuropatológicas e de neuroimagem funcional indicam que a apatia é provavelmente decorrente da disfunção do córtex pré-frontal medial. Assim, neste artigo de revisão, apresentamos uma proposta de um modelo fisiopatológico para explicar o comportamento apático na doença de Alzheimer, combinando dados de neuropatologia, neuroimagem e experimentação animal sobre o papel do córtex órbito-frontal, cíngulo anterior, núcleos da base e dopamina na neurobiologia da tomada de decisão.