Vinpocetine restores cognitive and motor functions in Traumatic brain injury challenged rats.

Traumatic brain damage is common worldwide and the treatments are not well-defined. Vinpocetine is a synthetic derivative of the vinca alkaloid vincamine and is clinically being used for various brain disorders. Here in the current study, we have investigated the neuroprotective potential of vinpocetine against traumatic brain injury. TBI was induced by the Marmarou weight drop method in rats. Brain damage was evaluated using cognitive and motor functions and the alterations in biomolecules. Injured rats were treated with different doses of vinpocetine (2.5, 5, and 10 mg/kg) for 4 weeks. Traumatic brain injury in rats produced significant deterioration of cognition and motor functions, which was accompanied by increased oxidative stress and significant alterations in brain monoamine levels as compared with the sham control group (p < 0.05). Vinpocetine alleviated TBI-induced oxidative burden, altered neurochemistry, and improved the cognitive and motor functions as compared with that of the TBI control group (p < 0.05). The observed neuroprotective potential of vinpocetine may be due to the observed antioxidant potential and its ability to restore the levels of brain neurochemicals under stressed conditions. The outcomes of the current study may help the repositioning of vinpocetine for preventing or treating traumatic brain injuries.

Neurobiology of traumatic brain injury.

Traumatic brain injury (TBI) involves structural damage to the brain regions causing death or disability in patients with lifelong sufferings. Accidental injuries to the brain, besides structural damage, if any, cause activation of various deleterious pathways leading to subsequent neuronal death and permanent dysfunction. However, immediate medical management/treatments could reduce the chances of disability and suffering to the patients. The objective of the current review is to review triggered molecular pathways following TBI and discuss possible targets that could restore brain functions. Understanding the pathologic process is always useful to device novel treatment strategies and may rescue the patient with TBI from death or associated co-morbidities. The current review significantly contributes to improve our understanding about the molecular pathways and neuronal death following TBI and helps us to provide possible targets that could be useful in the management/treatment of TBI.