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Acne starts during adolescence when your body activates your sebum glands to produce an oily element that when on the surface of the skin it soothes it and protects your skin from infection by microbes that thrive there constantly. If sebum does not outflow freely through the sebum canals to the exterior it produces multiple skin injuries that initiate an inflammatory reaction and the sebum trapped there becomes a perfect feeding ground for the proliferation of microbes.

Such infections place heavy demands upon the skin's components. Areas with continued acne infections caused by moderate or severe acne commonly develop deficiencies of essential ingredients, impairing the skin's ability to defend itself and heal efficiently.

Acne infections destroy collagen and elastin fibers, sever the microvascular network and damage and kill cells. When healing happens, usually after a long time if an adequate acne treatment has not be applied, a scar is left in the skin. The healthy functional tissue (skin) is replaced by connective tissue (scar).

Organic Ingredient Known to Treat Acne

Bacteria have survived for millions of years by developing resistance to new stressors including natural antibiotics like penicillin. What really happens is that the bacteria, with a high rate of mutation, ends up modifying one or more of its enzymes that are used to break the link between a target protein and the antibiotic. As a result, the antibiotic does not have effect.

But to adapt to a peptide antibiotic that punches a hole in the cell membrane is a different story. To defend itself, the bacterium would have to change the entire composition of the cell membrane. And to change the composition of a membrane would mean modifying most of the enzymes that are responsible for making the complex membrane in the first place.

Peptide antibiotics react within minutes helping treat acne instantly. Part of the reason for this rapid response is how the peptide works on the cell membrane. But to destroy a cell, the peptide must also quickly locate the bacterial membrane. How does this happen? The answer lies in the structure of the cell membrane.

The plasmatic membrane of eukaryotic cells is very different from the membrane of a prokaryotic cell. Eukaryotic cell membranes are made of a phospholipid bilayer and cholesterol. In consequence, these membranes have a low negative electrical charge. On the other hand, a bacterial membrane is composed by fats and sugars. This difference in construction means that bacteria have a high negative electrical charge that quickly attracts the peptide antibiotics.

Peptide antibiotics are effective. In one clinical trial for the treatment of meningitis, a sickness that affects 3,000 children a year, a peptide antibiotic not only destroyed the bacterium which produces the toxin, but it also bound to the toxin avoiding the damage the endotoxin produces. But bringing a drug to clinical trial is time consuming and costly. It takes $300 million to bring a drug to market. This cost includes every thing from finding, identification, production and clinical trials. This process can also take 10 or more years to accomplish.

Erase pimple spots using a natural treatment. We invite you to visit our website and read more about our unique biological ingredient.