NIMHANS researchers show promising intranasal therapy for Parkinson’s, enhancing motor function and neuron regeneration in ...

For decades, Parkinson’s disease has been framed as a problem of a single patch of brain tissue that controls movement. New ...

Researchers led by Beijing's Changping Laboratory have identified a specific brain network whose dysfunction appears central to Parkinson's disease, a finding that helps explain how existing ...

Being thoughtful about food choices can also help ensure your body produces and regulates dopamine properly. Dopamine is ...

The team found that in Parkinson’s patients, the SCAN shows excessive connectivity to subcortical regions, including the ...

By analyzing tissue from patients with Parkinson’s disease, and animal and cellular models of the disease, a research team from the Institut de Neurociències of the UAB has shown that the main immune ...

The analysis of nearly 900 participants highlights the importance of the region that transforms thought into movement, ...

An “extraordinary” brain network discovery shows that Parkinson’s disease may not be a movement disorder after all ...

Brain tissue analysis shows reactive microglia in Parkinson’s disease overexpress Fc gamma receptors, which may lead to inappropriate elimination of functional dopaminergic neurons. These findings ...

Immunotherapy that blocks microglial Fcγ receptors prevents dopaminergic neuron loss in Parkinson’s disease, revealing a potential new strategy.

In green, mouse dopaminergic neurons (substantia nigra). In magenta, microglia. In blue, cell nuclei. (Credits: Inc-UAB) Parkinson's disease is characterized by the progressive loss of dopaminergic ...