How do Antibiotics Work

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Antibiotics are a type of medicine that has antibacterial properties. The word antibiotic comes from the Greek words anti, meaning against, and bios meaning life. They are used to cure bacterial infections in humans. Bacteria are tiny organisms that cause illness or infection when they gain access to the human body. Antibiotics are used to help the body fight the illness or infection before it overruns the body.

How Do They Work?
Antibiotics work by either killing the bacteria or stopping them from reproducing. Both enable the body’s natural defense system to clear up the infection by creating the appropriate antibodies. In most cases before a bacteria even has time to multiple and causes symptoms or illness our body’s defense system creates antibodies to fight of the bacteria. An antibiotic that kills the offending bacteria is called a bactericidal. Penicillin is the oldest form of bactericidal and is made from a type of mold. It was first discovered in 1928 by Sir Alexander Fleming. An antibiotic that stops the bacteria from reproducing is called a bacteriostatic.

Due to the fact that antibiotics are designed to kill or damage bacteria they do not work on viral infections. Illnesses such as the common cold and influenza cannot be treated with antibiotics. It is also important that you use antibiotics correctly. If you do not finish a course of antibiotics as you are directed you may cause the bacteria to develop immunity to the antibiotic. This would mean that the antibiotic would become ineffective and not work against the bacteria in the system.

More about How do Antibiotics Work

Penicillin

Penicillin is a group of antibiotics derived from Penicillium fungi. They include penicillin G, procaine penicillin, benzathine penicillin, and penicillin V. Penicillin antibiotics are historically significant because they are the first drugs that were effective against many previously serious diseases, such as syphilis, and infections caused by staphylococci and streptococci. Penicillins are still widely used today, though many types of bacteria are now resistant. All penicillins are β-lactam antibiotics and are used in the treatment of bacterial infections caused by susceptible, usually Gram-positive, organisms.

Medical uses

The term "penicillin" is often used generically to refer to benzylpenicillin (penicillin G), procaine benzylpenicillin (procaine penicillin), benzathine benzylpenicillin (benzathine penicillin), and phenoxymethylpenicillin (penicillin V).

Procaine penicillin and benzathine penicillin have the same antibacterial activity as benzylpenicillin but act for a longer period. Phenoxymethylpenicillin is less active against Gram-negative bacteria than benzylpenicillin. Benzylpenicillin, procaine penicillin and benzathine penicillin are given by injection (parenterally), but phenoxymethylpenicillin is given orally.

Discovery

The discovery of penicillin is attributed to Scottish scientist and Nobel laureate Alexander Fleming in 1928. He showed that, if Penicillium notatum were grown in the appropriate substrate, it would exude a substance with antibiotic properties, which he dubbed penicillin. This serendipitous observation began the modern era of antibiotic discovery. The development of penicillin for use as a medicine is attributed to the Australian Nobel laureate Howard Walter Florey, together with the German Nobel laureate Ernst Chain and the English biochemist Norman Heatley.

Medical use
Penicillin kills bacteria by interfering with the ability to synthesize cell wall. In this sequence, Escherichia coli were incubated in penicillin for 30 minutes. The bacteria lengthen, but cannot divide. Eventually the weak cell wall ruptures .

Inappropriate use of antibiotics (prophylactic treatment of herds in meat production and pointlessly treating viral infections with antibacterials) flood our environment with drugs that select for populations of antibiotic-resistant bacteria. Although penicillin was a wonder drug when discovered, some bacteria exposed to penicillin survived because they produced the enzyme β-lactamase that destroys penicillin’s structure. A solution was to devise other penicillin-like antibiotics (β-lactams) with structures that are not destroyed by β-lactamase.

Methicillin is one of those drugs developed in the late 1950’s. Unfortunately, an increasing threat is now Methicillin-Resistant Staph aureus (MRSA) which avoids methicillin and other β-lactams by an alteration in MRSA's penicillin target-binding site. Bacteria are constantly evolving such new defenses, so treatment of bacterial infections requires a constant search for antibiotics with novel modes of action.

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Context: antibiotic resistance, antibiotics, cephalosporin, penicilin reaction, penicillin, penicillins, pneumoniae, Science, treat allergic reaction