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The significance of antibiotics discovery
The Discovery of Antibiotics
The advancement of antibiotics in the 20th century
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, prevention and control in our hospitals, have left South Africa, like the rest of the international community, on the brink of a return to an era of stubbornly resistant pathogenic bacteria towards antibiotics.
Diseases can be defeated or endured, if they are embraced. Denied or feared, they can grow and make it drudgery for scientists to manage. For years, South African mortality rates have escalated due to the phenomenon of antibiotic resistance.
Antibiotic resistance is a consequence of the misuse of antibiotics that give pathogenic bacteria the ability to withstand the effects of an antibiotic. Resistance occurs when bacteria change in such a way that they survive exposure to antibiotics. Resistance may not be confined to a single antibiotic, but may affect multiple antimicrobial classes. Antibiotic resistance is a major problem and everyone needs to work together to combat it - from medical practitioners to patients.
To get a clear insight of how pathogenic bacteria become resistant to antibiotics, one has to understand first how antibiotics work. Antibiotics are manufactured to interact with a specific target molecule produced by the bacteria. The target molecule performs protoplasm in the bacterium that is the driving cause of cellular growth and survival of the pathogen. Antibiotics hinder the growth and survival of the bacteria so that the bacteria can die. To inhibit the target’s function, an antibiotic must do three things. First, it has to reach the site of the target molecule. Second, the antibiotic has to persist at the site to have its effect. Third, the antibiotic needs to prevent the proper formation of cell walls and stop metabolic processes performed by the bacteria to prevent protein synthesis.
Antibioti...
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...up poll, it was estimated that more than half of American adults taking antibiotics failed to complete their prescribed dosage.
Compounding all of these solutions, the pharmaceutical industry needs to conduct extensive research on developing new antibiotics for various pathogenic bacteria by studying the bacterial structure. This will help scientists to formulate ways of counteracting the functions of the various constituents of bacteria.
The exacerbating effects and devastation caused by bacteria such as Mycobacterium,Vibrio cholerae, Bacillus anthracis, Xylophilus ampelinus, etc, is the growing threat of drug-resistance in many parts of the world. Identifying and addressing barriers to effective and timely diagnosis and treatment of drug-resistant diseases will be critical to preventing further emergence of strains of the disease with broad-spectrum resistance.
Public health officials estimate that up to 50% of all antibiotics use in the U.S is either unnecessary or in appropriate.
In the last decade, the number of prescriptions for antibiotics has increases. Even though, antibiotics are helpful, an excess amount of antibiotics can be dangerous. Quite often antibiotics are wrongly prescribed to cure viruses when they are meant to target bacteria. Antibiotics are a type of medicine that is prone to kill microorganisms, or bacteria. By examining the PBS documentary Hunting the Nightmare Bacteria and the article “U.S. government taps GlaxoSmithKline for New Antibiotics” by Ben Hirschler as well as a few other articles can help depict the problem that is of doctors prescribing antibiotics wrongly or excessively, which can led to becoming harmful to the body.
Resistance arises from mutations that are not under the control of humans, but the evolution of bacteria has been sped along by the overexposure of antibiotics to both people and animals. The number of antibiotic-resistant strains of bacteria in an area is closely related to the frequency that antibiotics that are prescribed (Todar, 2012). Patients often unnecessarily demand antibiotics to treat common colds or simple illnesses that are not caused by bacteria. Instead, these infections are caused by viruses which, unlike bacteria, are unaffected by antibiotics. Incorrect diagnosis can also lead patients to using unnecessary antibiotics, which can sometimes be even more dangerous than otherwise left untreated. Besides the fact that antibiotics kill off beneficial bacteria in the intestines, misuse of antibiotics provides an opportunity ...
Antibiotic-resistant bacteria are created when mutations in the pathogen's genetic code occurs, changing the protein in the bacteria that the antibiotics normally go after into a shape that the antibiotic can not recognize. The average bacteria divides every twenty minutes, so if a contaminated spot has one single bacteria in the morning, there could be trillions on that same spot at the end of the day. That means that when counting all the possibilities of mutations, the amount of mutated offspring that the bacteria might have formed during those replications could be as high as in the millions. Fortunately though, this does not happen so frequently that it is normally an issue. The amount of non-mutated bacteria vastly outnumbers the mutated ones and many of the mutations occurring in the bacteria usually have either a harmful effect, or not effect at all on its function. That means that the pathogen is still relatively less harmful than it c...
According to USA Today, U.S. doctors are prescribing enough antibiotics to give to 4 out of 5 Americans every year, an alarming pace that suggests they are being excruciatingly overused. In fact, Dr. Aunna Pourang from MD states, “to give you an idea of how high the pressure is to prescribe antibiotics, I didn’t get a job once because during the interview I told the lead physician that I only prescribe antibiotic prescriptions when they are warranted.” The development and widespread obsession of antibiotics, or drugs that kill bacteria and thereby reduce infection, has helped billions of people live longer, healthier lives. Unfortunately, the more we rely on and abuse antibiotics, the more bacteria develop resistance to them, which makes treating infections that much more challenging and leads to the growth of drug-resistant strains of bacteria. Research from the Center of Disease Control found that two million people in the United States become infected with antibiotic resistant bacteria, while 23,000 people die from such infections each year. Americans often aren’t informed on the power of the human body and rush to assumptions when perfection isn’t present. In a nutshell, the obsession of antibiotics is quite deadly and needs to be addressed before it’s too
Drug resistance in mycobacterium tuberculosis (TB) has become a severe global health threat. The fight against TB is now facing major challenges due to the appearance of Multi-Drug Resistant Tuberculosis (MDR-TB) and more recently, the virtually untreatable Extensively Drug Resistant Tuberculosis (XDR-TB). MDR-TB are strains that are resistant to both top first-line drugs, Isoniazid and Rifampin, while XDR-TB are MDR-TB strains that are also resistant to any fluoroquinolone and one or more of 3 injectable drugs. With this new resistance, there emerges a great need to find new drugs that are as effective, yet bypass the problem of resistance. One method of research is to find new vulnerabilities of tuberculosis to use as new target sites of drugs. This method is highly expensive (Scheffler, Colmer, Tynan, Demain, & Gullo, 2013), and requires intense and lengthy research just to implicate the new target site. An alternative is to develop new drugs that work on the same already known target as the first-line drugs, but by a different mechanism, thereby bypassing the resistance of the TB to the drug.
Acquired antimicrobial resistance generally can be ascribed to one of five mechanisms. These are production of drug-inactivating enzymes, modification of an existing target, acquisition of a target by-pass system, reduced cell permeability and drug removal from the cell. (Sefton) Also a bacterium that was once prone to an antibiotic can gain resistance through alt...
Long before humans discovered antibiotics, they existed in nature. So naturally, after penicillin was introduced, some germs were already naturally resistant to the drug. As we used more and more of the antibiotics, we incidentally caused drug-resistant germs to progress. So, even if you’ve never misused antibiotics, you could still become infected by bacterium most drugs won’t kill. For each drug, there are germs genetically programmed to survive- some w/ outer walls tough for antibiotic to cross, others with ways to dump the drugs back out before they can work, and yet others can inactivate the antibiotic. Even worse, by passing tiny packets of genetic material to other bacteria, these survivor germs sometimes also pass the formula for resistance to the other bacteria. The best way you can protect yourself and your family against drug-resistant bacteria is by using antibiotics correctly. Taking them when they’re not needed encourages the takeover of drug-resistant strains in your body. (Redbook, pg.95) That’s because when antibiotics are given, the normal bacteria in your body are killed off, leaving lots of bacterial “parking spaces'; open. And the germ left to fill them is the drug-resistant ones. (Redbook, pg.95) So far, antibiotic resistance has not been a big problem with streptococcus A, the germ familiar to all of us for causing millions of cases of strep thr...
Resistance first appears in a population of bacteria through conditions that favor its selection. When an antibiotic attacks a group of bacteria, cells that are highly susceptible to the medicine will die. On the other hand, cells that have some resistance from the start or acquire it later may survive. At the same time, when antibiotics attack disease-causing bacteria, they also attack benign bacteria. This process eliminates drug-susceptible bacteria and favors bacteria that are resistant. Two things happen, populations of non-resistant and harmless bacteria are diminished, and because of the reduction of competition from these harmless and/or susceptible bacteria, resistant forms of disease-causing bacteria proliferate. As the resistant forms of the bacteria proliferate, there is more opportunity for genetic or chromosomal mutation (spontaneous DNA mutation (1)) or transformation, that comes about either through a form of microbial sex (1) or through the transference of plasmids, small circles of DNA (1), which allow bacteria to interchange genes with ease. Sometimes genes can also be t...
What if there were no treatment for strep throat? Or pneumonia? Or sinus infections? It is hard to imagine life without medicine for these illnesses. But what if the antibiotics used to treat bacterial infections such as strep throat and pneumonia stopped working? What if the bacteria were stronger than the antibiotics? The threat of antibiotic-resistant bacterial infections is an increasing concern for healthcare providers, and it is important to reduce the misuse and overuse of antibiotics to maintain control of bacterial diseases.
Generally in life, an overabundance of anything is thought of as a blessing.For instance, most people would say that there is no point where someone has too much money, or too much time; however, having and using too many antibiotics can be a problem.With the advent of antibiotics in 1929 Fleming warned that, "The time may come when penicillin can be bought by anyone in the shops.Then there is the danger that the ignorant man may easily underdose himself and by exposing his microbes to non-lethal quantities of the drug make them resistant."[1]Following with Fleming's words antibiotics need to be prescribed in a judicious fashion, not of one with a careless action, "one third of the 150 million outpatient prescriptions are unnecessary."[2]With the overuse of antibiotics today we have seen this very idea come to be.Over usage is caused most prevalently by a lack of education on the part of the patient.Thus stated, the way to overcome such a circumstance is to educate, not only the physician but also the patient.
Reducing healthcare associated infections (HAI) or nosocomial infections is an ongoing challenge for healthcare facilities. As healthcare changes from a fee-for-service billing system to a value-based or outcome-based billing system, it will be essential for healthcare providers to minimize hospital acquired infections and hospital readmissions to maintain a healthy bottom line. Sifri, Burke and Enfield’s (2016) article asserts “despite important reduction in certain HAIs, the nation has not yet reached the goals for HAI reduction set by the Department of Health and Human Service’s 2009 National Action Plan to Prevent Healthcare associated infections” (p. 1565). Healthcare providers have known for years that pathogens such as Methicillin-resistant Staphylococcus Aureus (MRSA), B-lactamase producing Enterobacteriaceae (ESBL), and Vancomycin-resistant Enterococcus (VRE) are examples of pathogens that remain viable on surfaces for extended periods of time. Patients are consistently shedding bacteria, contaminating bed linens, gowns and hard surfaces. As a result, the bacteria can be transferred from patients to healthcare workers and medical equipment. Some of the pathogens can remain viable for days, weeks and even months on hard surfaces. Clostridium difficile can survive for months in an untreated environment.
Antibiotic resistance occurs in bacteria when the use of antibiotics manages to kill off every bacteria except for a lone few. The lone few then live to pass on their DNA every time they undergo binary fission and the antibiotic resistance bacteria spread. This antibiotic resistance has given rise to numerous problems in the medical world as the bacteria they used to handle with a prescription of antibiotics now thrive without barriers. Currently, the main six bacteria that present problems with antibiotic resistance are Enterococcus faecium, Staphylococcus aureus, Klebsiella pneumoniae, Acinetobacter baumannii, Pseudomonas aeruginosa and Enterobacter spp., collectively known as the ESKAPE pathogens. Collectively these ESKAPE pathogens claim
Specific Purpose: To inform my audience about the dangers of prescription drugs when not taken as prescribed by your physician or pharmacist.
Medical science and pharmaceutical researchers need to vigorously investigate the many factors contributing to the decline in antibiotic efficacy which will then empower them to research and develop a new generation of antibiotic therapies. Aligned with this is the responsibility of each individual to manage their health and expectations with regard to treatment. For example, individuals could adopt better ways of maintaining their immune systems by means of a healthy diet and exercise.