Garlic: not only fights germs, but also prevents heart attacks.

Garden garlic is one of the oldest plants in the world cultivated by humans. The unpretentious perennial vegetable belongs to the onion subfamily, whose other representatives are leeks, chives, green onions and shallots, which, like their "relative" garlic, are distinguished by their pungent aroma and taste.

The bulb of this plant, which consists of 8-20 cloves, is eaten. The cloves are teardrop-shaped and wrapped in a white parchment-like skin.
Garlic contains many nutrients that have a positive impact on health. For many centuries, this vegetable has been used as a medicine, especially during epidemics of cholera and tuberculosis, as well as during the First World War, when it was used as an antiseptic (applied to wounds to clean them and speed up healing), and to treat dysentery caused by unsanitary conditions in the trenches.

Garlic is a Klondike of vitamins and minerals

This plant is an excellent source of vitamin B6 (pyridoxine), and also contains manganese, selenium, and vitamin C. In addition, garlic contains vitamins A, B1, B2, B12, D, and E, as well as minerals, including phosphorus, calcium, potassium, iron, and copper.
Garlic is believed to owe its medicinal properties to the active ingredient allicin. In fact, it is this sulfur-containing compound that gives garlic its characteristic pungent odor and taste.

Garlic contains sulfur compounds

The plant absorbs sulfate from the soil and stores it in molecules. When garlic is cooked and consumed, these molecules break down into about fifty different compounds that interact with other specific molecules in the body to produce strong biological effects. Scientific research on these compounds is currently underway, but scientists believe that they are responsible for the beneficial properties of garlic.

Reduces the risk of heart attack

Current research shows that garlic has the potential to reduce the risk of heart disease, which is due to lowering cholesterol levels in the body. Several studies have also shown that this vegetable helps platelets (cells involved in blood clotting) to stick together less and, accordingly, to adhere less to the walls of arteries, i.e., this plant acts as an anticoagulant.

How does garlic treat bacterial infections?

Abstract:
Garlic is a commonly used ingredient in cooking that has been valued for its medicinal properties for centuries. Garlic has been shown to have antibacterial properties and has been used to treat bacterial infections for many years. The purpose of this review is to provide an overview of the antibacterial properties of garlic and the mechanisms by which it can treat bacterial infections.

Introduction:
Bacterial infections can cause a variety of illnesses and diseases, ranging from minor infections such as ear infections to life-threatening illnesses such as sepsis. The development of antibiotic resistance has made it increasingly difficult to treat bacterial infections with traditional antibiotics. Garlic is a natural alternative that has been used for centuries to treat bacterial infections. Garlic contains a compound called allicin that has been shown to have antibacterial properties.

Mechanism of action:
Allicin is the active compound in garlic that is responsible for its antibacterial properties. When garlic is crushed or chopped, an enzyme called alliinase is activated, which converts alliin into allicin. Allicin has been shown to inhibit the growth of a wide range of bacteria, including antibiotic-resistant strains. Allicin works by disrupting the cell membrane of the bacteria, which leads to the leakage of the bacterial cell contents and eventually causes the death of the bacteria.

Clinical studies:
Several clinical studies have investigated the antibacterial properties of garlic. One study found that garlic extract was effective against a variety of bacteria, including Escherichia coli and Staphylococcus aureus. Another study found that garlic was effective in inhibiting the growth of Helicobacter pylori, a bacteria that is responsible for stomach ulcers. Garlic has also been shown to be effective in treating urinary tract infections and ear infections.

Conclusion:
Garlic has been used for centuries for its medicinal properties and has been shown to have antibacterial properties. Allicin, the active compound in garlic, works by disrupting the cell membrane of bacteria, leading to their death. Clinical studies have shown that garlic is effective in treating a variety of bacterial infections. Garlic is a natural alternative to traditional antibiotics and may be useful in treating bacterial infections, especially those caused by antibiotic-resistant strains. Further research is needed to fully understand the antibacterial properties of garlic and its potential use in the treatment of bacterial infections.