Q. How can garlic prevent or compensate for anemia?
A. As stated in the description, diallyl sulfides help produce ferroportin. Ferroportin is a protein that transports iron across the cell membrane of enterocytes thus forming a passageway that allows stored iron to leave cells and become available for use in circumstances like anemia.
Q. How does it protect us against inflammation?
A. On the anti-inflammatory side of the benefits garlic has, 1,2-vinyldithiin and thiacremonone are compounds indicate to be one of the reasons for the alleviation of inflammation. Both compounds appear to work by the inhibiting activity of inflammatory messenger molecules. Thiacremonone inhibits the inflammatory transcription factor called NFkappa B. Though still unclear to as what 1,2-vinyldithiin does to contribute to the effect of anti-inflammation, it is still a vital component against inflammation.
Q. How does hydrogen sulfide help improve cardiovascular-related disorders?
A. H2S controls our blood pressure by triggering expansion or dilation of our blood vessels. When the space inside our blood vessels dilates, our blood pressure decreases and thus allowing larger diameter of space available for blood to flow through.
Q. What is atherosclerosis?
A. According to Web MD, Atherosclerosis is the hardening and narrowing of the arteries putting blood flow at risk. It is the usual cause of heart attacks, strokes, and peripheral vascular disease that is collectively called cardiovascular diseases.
Q. How can garlic prevent atherosclerosis?
A. Garlic can prevent blood vessels from becoming blocked. This cardiovascular protection associated with one precise disulfide in the garlic called ajoene. Ajoene has frequently been shown to have anti-clotting characteristics. It prevents platelets from becoming too adhesive or sticky, and regulates the amount of adhesiveness in check, thus lowering the risk of forming clots within the arteries.
Q. How can garlic prevent cancer?
A. The allyl sulfides found in garlic plays an important key role in the prevention of cancer. These compounds can initiate molecules called Nrf2 (nuclear erythroid factor). Nrf2 molecules in turn move into the cell nucleus where it will activate a variety of metabolic activities. When cells distinguish cells that have become too impaired or compromised to continue functioning and interacting with other cells, it will start to break up itself and recycle its parts. Cancer cells you see are non-functional cells that continue to replicate and thus cause problems for the body. Nrf2 prevents further replication of these cancer cells by triggering it to undergo apoptosis or cell death.