Wednesday, October 23, 2019
How Penicillin Changed the World Essay
Life before September 1928 proved to be a difficult time for many. The quality of life across the world was poor, and humans had a considerably shorter lifespan than today. Bacterial infections ranked as a leading cause of death. These infections spread easily, and diseases such as pneumonia, syphilis, gonorrhea, diphtheria, and scarlet fever as well as wounds and childbirth infections killed thousands every year. Surgical infections were also a major killer, and doctors had no protection from any of these infections. The discovery of the first antibiotic, penicillin, in 1928 changed the lives of people forever. Penicillin provided a cure for many deadly infections, and its discovery led to the discovery of many other antibiotics, such as streptomycin, which are used to treat everyday infections for countless ailments, saving and improving lives throughout the world. Before the discovery of penicillin, medicine was not very reliable for curing diseases or infections. Many people in t he late 1800ââ¬â¢s- 1920s were dying from the common cold (Tames 12). The Center for Disease Control and Prevention states,ââ¬Å"Diseases such as pneumonia, tuberculosis (TB), and diarrhea and enteritis, which (together with diphtheria) caused one third of all deaths in the late 1800ââ¬â¢s to early 1900ââ¬â¢sâ⬠. 1918 proved to be an especially devastating time with 20 million lives lost due to a wide spread of influenza that no known medication could cure. During this time vaccinations were the most helpful medication but even with their help, thousands still died from many diseases and infection (CDC). The discovery of penicillin is described as being miraculous. Penicillin is responsible for curing thousands of diseases and infections since the 1940ââ¬â¢s. It saves hundreds of thousands of lives that would otherwise be lost due to these infections. Treating everything from cuts and scrapes to major diseases such as syphilis, penicillin is used for just about everything in todayââ¬â¢s world (Wong). Wong stated, ââ¬Å"Without the discovery of this antibiotic thousands of people would still be dying from the same diseases that killed hundreds of years agoâ⬠. Despite the success of the drug, penicillin, discovered by Dr. Alexander Fleming, was an accidental finding. Fogel commented in his article, ââ¬Å"Fleming was known as being an unorganized and messy scientistâ⬠. He was researching a culture of staphylococcus aureus , a pathogenic bacteria,à and left for a two week vacation. When he returned he observed that the specimen was contaminated by a species of penicillium and the penicillium prohibited the growth of the staphylococcus aureus (Wong). Fleming decided to further his research and discovered that this mold was capable of killing a wide range of harmful bacteria. He published his findings in the British Journal of Experimental Pathology, where other scientists observed them and decided to turn penicillin into something more than just a laboratory finding (ââ¬Å"Discovery and Development of Penicillinâ⬠). In the early days of penicillin production, only small amounts of the drug were produced, which caused major issues for doctors and surgeons testing the antibiotic. Once penicillin was developed enough for testing, it became high in demand. Producers of the drug could only fermentate small amounts at a time, growing the penicillium bacteria in bedpans, milk churns, and food tins (ââ¬Å"Discovery and Development of Penicillinâ⬠). Endocrine Today states, ââ¬Å"It took seven months to grow enough of the bacteria to cure 6 patientsâ⬠. This caused many issues for doctors and surgeons testing the drug, since they couldnââ¬â¢t complete their trials with the limited resource. Many patients who received penicillin died from relapse of diseases since doctors did not have the amount of the drug needed to completely eradicate the disease. It wasnââ¬â¢t until the late 1930ââ¬â¢s that increased production of the drug occurred with the development of customized fermentation tanks that would allow 500 liters of penicillin to be produced per week (ââ¬Å"Penicillin: An Accidental Discovery Changed the Course of Medicineâ⬠). Although penicillin was limited in resource, tests on the new drug proved to be successful. Performing the first test with penicillin were Howard Florey and Ernst Chain, who injected 50 mice first with harmful Streptococci then with penicillin. The test proved to be successful in eradicating the disease from the mice. According to Tames, ââ¬Å"The first human test of penicillin was Albert Alexander, a 43 year old police officer that suffered a small cut from a rose thorn that turned into a life-threatening infection with huge abscesses affecting his eyes, face, and lungsâ⬠(24). Alexander was injected with penicillin and within days he made a miraculous recovery. Unfortunately, the limited amount of penicillin ran out, and he died three days later. Another test was performed on a four year old boy with a fatalà infection, and he was cured completely. Scientists who worked for major pharmaceutical companies wanted to purify the drug even more for widespread use all over the wo rld (ââ¬Å"Discovery and Development of Penicillinâ⬠). Accordingly, penicillinââ¬â¢s use in World War II decreased the amount of soldier deaths that were the result of diseases and infections. In World War I, 200,000 soldiers died from disease and infection. The Center for Disease Control states, ââ¬Å"The most common diseases for both world wars were pneumonia ,strep throat, scarlet fever, diphtheria, syphilis, gonorrhea, meningitis, tonsillitis,and rheumatic feverâ⬠. With the help of penicillin, in World War II the number of soldier casualties dropped significantly to around 9000. Death rate from pneumonia was 18% in WWI; and in WWII it was less than 1% (ââ¬Å"Penicillin the Wonder Drugâ⬠). In addition to its benefits in World War II, penicillin also dropped the death rate from amputation. Amputations were extremely risky in the late 1800s to early 1900ââ¬â¢s because of the inadequacy of medication and sanitation in hospitals. Thousands of soldiers came home from the war needing amputations from sustained injuries. Tames states, ââ¬Å"Before the induction of penicillin 75% of amputations resulted in deathâ⬠(45). Penicillinââ¬â¢s use in these procedures reduced that number to 30% (68). Antibiotics made it safe to operate on limbs without the fear of infection for thousands of people. Furthermore, the discovery of penicillin paved the way to the discovery of other antibiotics. Penicillins success inspired many scientists and pharmacists to research other products that could be helpful in medicine. Many scientists tested bacterias and natural fruits for harmful bacteria fighting properties (ââ¬Å"The fungus that changed historyâ⬠). Endocrine Today states, ââ¬Å"A number of pharmaceutical industries began to screen other natural products for antibacterial activity, which led to new antibiotics such as aminoglycosides and tetracyclineâ⬠(ââ¬Å"Penicillin: An Accidental Discovery Changed the Course of Historyâ⬠). These new antibiotics, just like penicillin, were successful in the treatment and eradication of many infections and diseases. As a result from the discovery of new antibiotics along with penicillin, many diseases and infections that killed thousands finally had a cure. Krebs states in his article, ââ¬Å"Before penicillin,à tuberculosis, scarlet fever, diphtheria, syphilis, anthrax, strep, and staph often resulted in deathâ⬠. Doctors and surgeons didnââ¬â¢t have the medication to cure many of the diseases that were major killers at the time. With the discovery and induction of penicillin, most if not all those diseases and infections are now curable (ââ¬Å"The Fungus that Changed H istoryâ⬠). Today, less than 10% of the worlds population die from the same diseases that killed in the late 1800ââ¬â¢s-early 1900ââ¬â¢s (Wong). Subsequently, penicillin is still as popular as it was in the 1930ââ¬â¢s, despite the growing number of allergies and antibiotic resistance against it. The overuse and misuse of penicillin has caused many to develop antibacterial resistance against the drug. Allergies caused by penicillin are the most common of all drug allergies. Some scientists claim that penicillin allergies are caused by a personââ¬â¢s immune system genetic makeup that is designed to fight all bacteria. Despite this, ââ¬Å"Penicillin is the most widely used antibiotic in the worldâ⬠, and it continues to be effective in curing deadly diseases (ââ¬Å"Penicillin: An Accidental Discovery Changed the Course of Medicineâ⬠). Penicillin has changed the world in an extremely positive way. It has provided the means for treating and curing deadly diseases and infections, as well as lead to the discovery of other disease killing antibiotics. Millions of lives have been saved and improved a result of this discovery. Without the ââ¬Å"mistakeâ⬠Alexander Fleming supposedly made the world would still be one with meager medical treatments; and thousands would still be dying from the fatal diseases that took so many lives in the 1800ââ¬â¢s. Penicillin has truly fabricated the world of medicine into what it is today.
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