Impaired cellular homeostasis of metals, particularly of Cu, Fe and Mn may trigger
neurodegeneration through various mechanisms, notably induction of oxidative stress …

Manganese as an essential element is required by organisms from simple bacteria to plants,
animals and human beings. The identification and determination of organic or inorganic …

For more than 150 years, it is known that occupational overexposure of manganese (Mn)
causes movement disorders resembling Parkinson's disease (PD) and PD‐like syndromes …

Background: Transition metals play a crucial role in brain metabolism: since they exist in
different oxidation states they are involved in ROS generation, but they are also co-factors of …

Occupational manganese (Mn) overexposure leads to accumulation in the brain and has
been shown to cause progressive, permanent, neuro-degenerative damage with syndromes …

Metal-binding proteins play a crucial role in biological systems and associated metals
display many critical functions, so many analytical tools have been developed to identify …

After high-dose-short-term exposure (usually from occupational exposure) and even more
under low-dose long term exposure (mainly environmental) manganese (Mn) biomonitoring …

Обобщен опыт определения химических форм микроэлементов в биологических
объектах, основное внимание уделено клиническим объектам анализа. Обсуждены …

Abstract Prolidase (EC. 3.4. 13.9) is a dipeptidase known nowadays to play a pivotal role in
several physiological and pathological processes. More in particular, this enzyme is …

Chronic manganese exposure leads to accumulation in brain mainly in the basal ganglia.
Continuous incorporation finally causes neural damage (Manganism, Mn-PD) with disease …