The cytosolic free magnesium concentration can be assessed in vivo in the human brain by phosphorus magnetic resonance spectroscopy. This technique has been employed in the human brain, providing new hints on the Mg2+ homeostasis and on its involvement on the cellular bioenergetics. The free cytosolic [Mg2+] measured in the human brain is about half of that assessed in the human skeletal muscle. This result is likely related to the lower ATP concentration of brain tissue. The possibility to assess the cytosolic [Mg2+] in the human brain opened the chance to study the involvement of Mg2+ in different neurological pathologies, and particularly in those where the defective mitochondrial energy production represents the primary causative factor in pathogenesis. The results obtained, studying patients affected by different types of mitochondrial cytopathies, helped to clarify the functional relationship between the energy metabolism and free [Mg2+], providing evidence that the cytosolic [Mg2+] is a function of the energy charge of brain cells and a defective mitochondrial respiration causes a derangement of cytosolic [Mg2+] homeostasis. A reduced cytosolic [Mg2+] has been also found in the occipital lobes of patients with different types of migraine and cluster headache, showing among migraine patients a trend in keeping with the severity of clinical phenotype. In addition, the assessment by phosphorus magnetic resonance spectroscopy of brain [Mg2+] can help in the differential diagnosis of Multiple System Atrophy and Parkinson's disease, offering a new diagnostic tool that may help to differentiate neurodegenerative diseases sharing common clinical features.
© 2011 The Authors.