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Methicillin-resistant Staphylococcus aureus (MRSA) is a kind of bacteria which is resistant to certain antibiotics, such as methicillin and other common antibiotics such as oxacillin, penicillin and amoxicillin. MRSA is usually transmitted by direct mail contact or contact with shared objects or surfaces that have come into contact with someone else’s disease, like towels or used bandages.

Lo sapevi?

If entered into the blood stream, MRSA infections can become deadly. When treating MRSA, taking antibiotics is not sufficient to ruin the bacterium or cure a Staph infection. Even though some medicines can help the boil to go away, the germ remains all around you, and you’ll almost certainly get it again if appropriate prevention measures aren’t followed. This dilemma has physicians and other medical professionals searching for an alternative to antibiotics.

Why don’t antibiotics work? Antibiotics are medications that help to fight bacterial infections. However, bacteria have the capacity to mutate and become resistant to elements trying to destroy them, like antibiotics. Bacteria quickly develop new traits through mutations that help protect them from antibiotics. The mutated organisms survive and reproduce, passing across the mutation to their offspring. Eventually, antibiotic-resistant strains of bacteria will outnumber the non-resistant ones under the continuous pressure of antibiotic usage.

Antibiotic resistence

According to the Centers for Disease Control and Prevention (CDC), antibiotic resistance occurs when bacteria change in some way that reduces or eliminates the effectiveness of drugs, chemicals or other agents designed to cure or prevent infections. The bacteria survive and continue to multiply causing further injury. In simpler terms, when a bacteria becomes resistant to an antibiotic, it means that it’s come up with a way to maintain the antibiotic out of working against it. It’s been noted that over 70 percent of the germs that cause infections are resistant to at least one antibiotic used to treat them.

What’s the solution? Manuka Honey has the power to destroy bacteria by drawing moisture from the bacterial cells, which makes it impossible for the bacteria to survive. This is different than how antibiotics kill bacteria. There’s been countless clinical studies which have proven Manuka Honey’s capability to fully wipe out the superbugs connected with MRSA-related Staph infections. Because of this, Manuka Honey is currently being used in wound dressings as a highly effective antibacterial agent. Up to now, there have been no documented instances of any germs having the ability to develop a resistance to Manuka Honey.

What is Manuka Honey?

There’s a special sort of plant that is native to New Zealand and certain sections of Australia known as the Manuka Tree (Leptospermum scoparium). Honeybees collect the nectar of the flowers that grow on the Manuka Tree and take it back to their hives in which they include enzymes to it to form honey. It’s this exceptional nectar that have special antibacterial properties that makes Manuka Honey different than other kinds of honey.

This medical grade honey is presently being used in wound care products as a therapeutic agent. Honeymark is a producer of skin care products that uses Active Manuka Honey as a principal ingredient. Honeymark’s First Aid Antiseptic Lotion is an effective topical remedy when treating MRSA. Besides Active Manuka Honey, this product also contains Benzalkonium Chloride which is an FDA approved antiseptic. The chloride is, basically, salt that has the capacity to absorb moisture, like the manner Manuka Honey does. Anyone who has ever poured salt over a slug has watched the slug shrivel up and die. Something similar happens to bacteria when it comes in contact with chloride.