The P7C3 compounds have been found to have both neuroprotective and pro-neurogenic effects. This means P7C3 protects our brain cells from harm and also promotes the formation of new neurons, or brain cells. In the past, it has been shown to work especially well in people with Parkinson’s disease or traumatic brain injuries. When this compound was recently mixed with the ghrelin hormone, the ability to promote brain cell regeneration was greatly increased. Why is neurogenesis important? It is thought to reduce depression, and typically antidepressant drugs on the market work by promoting brain cell creation.
Interestingly enough, it was discovered that ghrelin also exhibits natural antidepressant effects. Its antidepressant properties appear when levels increase due to food restriction. In increased levels, ghrelin has the ability to encourage brain cell growth, especially in the hippocampus, and limit the extent of depression after long-term exposure to stress. Researchers at the University of Iowa Carver College of Medicine also found that the regenerative process inside the hippocampus, a part of the brain which moderates mood and memory, is crucial in limiting the severity of depression following prolonged exposure to stress.
Current treatment for depression includes antidepressant drugs, psychotherapy or a combination of both. By identifying the mechanism by which ghrelin works inside the brain and that its antidepressant effects are heightened by P7C3, scientists could be on the brink of brand new class of antidepressant drugs.
The combination boosted neurogenesis to a much greater level than a wide range of antidepressants currently on the market. This could mean a great reduction in the use of synthetic drugs—which can have numerous side effects—and a turn to more homeopathic approach to treatment.
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