Emoxypine
Emoxypine, also known as Mexidol or Mexifin, a succinate salt, is chemical compound which is claimed by its manufacturer, the Russian company Pharmasoft Pharmaceuticals, to have antioxidant and actoprotector properties, but these purported properties of emoxypine have not been proven. Its chemical structure resembles that of pyridoxine.
History
Emoxypine was first synthesized by L.D. Smirnov and K.M. Dumayev, then studied and developed in the Russian Institute of Pharmacology, Russian Academy of Medical Sciences and Russian Scientific Center of Bioactive Substances Safety. Its research and use has been largely isolated to former soviet states, with little interest from other countries.Use
Emoxypine is widely used in Russia, primarily for its anti-oxidant properties claimed by the manufacturer. It purportedly exercises anxiolytic, anti-stress, anti-alcohol, anticonvulsant, nootropic, neuroprotective and anti-inflammatory action. Emoxypine presumably improves cerebral blood circulation, inhibits thrombocyte aggregation, lowers cholesterol levels, has cardioprotective and antiatherosclerotic action. The compound's in vitro iron chelating property shows potential in the management of neurodegenerative conditions such as Alzheimer's disease, as well as hematologic disorders.Mechanism of action
Emoxypine's purported mechanism of action is believed to be its antioxidant and membrane-protective effects with the following key components: Still, the antioxidant and membrane-protective effects have not been proven in reviews and meta-analysisThe purported actions of emoxypine are:
- Emoxypine inhibits oxidation of biomembrane lipids.
- Increases the activity of antioxidant enzymes, specifically that of superoxide dismutase, responsible for the formation and consumption of lipid peroxides and active oxygen forms.
- Inhibits free radicals during the synthesis of prostaglandin catalyzed cyclooxygenase and lipoxygenase, increases the correlation prostacyclin/ thromboxane A2 and blocks the leukotriene formation.
- Increases the content of polar fraction of lipids and reduces the cholesterol/phospholipids ratio which proves its lipid-regulatory properties; shifts structure transition into the low temperature zones, that is provokes the reduction of membrane viscosity and the increase of its fluidity, increases lipid-protein ratio.
- Modulates the activity of membrane-bound enzymes: phosphodiesterase, cyclic nucleotides, adenylate cyclase, aldoreductase, acetylcholinesterase.
- Modulates the receptor complexes of the brain membranes, i.e. benzodiazepine, GABA, acetylcholine receptors by increasing their binding ability.
- Stabilizes biomembranes, i.e. membrane structures of blood cells - erythrocytes and thrombocytes during their haemolysis or mechanical injury accompanied by the formation of free radicals.
- Changes the monoamine level and increases the dopamine content in the brain.
Clinical study