Turmeric Stimulates Brain Stem Cell Regeneration
According to a recent study that was published in the Stem Cell Research and therapy Journal, it seems that turmeric contains an important compound that engages the proliferation of stem cells in the brain. The encouraging research states that the bioactive turmerone could soon be used in the composition of drugs that fight against Alzheimer’s disease and strokes.
Aromatic Turmerone And The Brain
The effects of aromatic turmerone on the neutral stem cells located in the brain of adult patients have been studied throughout this research. These neutral stem cells are responsible for differentiating into neurons. They engage important auto-repair processes and they are also known to work at the recovery of certain function of the brain in people suffering from various neurodegenerative illnesses. There are older studies stating turmerone is able to prevent microglia cells from being enabled. When the microglia cells become active, they usually trigger neuroinflammations, which are believed to cause neurological disorders.
Researchers studied the role of ar-turmerone on the multiplication and differentiation of neutral stem cells in vitro and in vivo. In vivo results showed that at certain concentrations, the turmerone boosted the proliferation of NSC by 80% and it did not affect the death of cells. In vivo testing showed that the areas responsible for the growth of neurons became wider and more expanded. For those of you who are using various online games to improve your cognitive thinking and stimulate your brain functions, the https://www.lotterymaster.com site can provide you with some excellent gaming options.
The results are groundbreaking for regenerative medicine; aromatic turmerone which seems to encourage the proliferation of brain stem cells and the differentiation into neurons could lead to the development of some excellent drugs for suffering patients. Plus, the tasty turmeric has another bioactive compound that is useful because of its neuroprotective and anti-inflammatory roles.