Antibiotic Resistant Bacteria
“Antibiotics" is the name given to the group of chemicals, particularly in medicine, that stop or inhibit the growth of, microorganisms such as fungi, bacteria, and parasites, or that kill the microorganism. They are, however, completely ineffective against viruses. There are two kinds of antibiotics, namely; bactericides, which interfere with the cell wall or contents of the bacteria, thereby killing it, and bacteriostatics, which prevent the bacteria from reproducing. They are used to treat bacterial infections in humans and animals. Bacteria are microorganisms consisting of single cells, and reproduce by mitosis. They usually live in colonies. Some bacteria and other microorganisms produce antibiotics to kill off other species, making more resources available for the organism making the chemicals. Ironically, it was this that led to the discovery of antibiotics in 1928, when Alexander Fleming noticed that the fungus Penicillium notatum, which had contaminated a sample of pathogenic bacteria, had killed the bacterial colonies in a petri dish.
Some bacteria cause disease, and are called pathogens. They cause disease by producing toxins that harm tissue within the body. Others are harmless or even useful, performing many vital functions in the body, such as aiding digestion.
Bacteria are living organisms, and as such they have the ability to evolve by mutation and natural selection. This is the process by which random genetic mutations create individuals better suited to their environment, which then live to reproduce. The progeny of this individual will then have this mutation, and so a species evolves. One of the largest problems facing the medical profession today is that harmful, that ...
... middle of paper ...
...ics.
Bibliography
1. (2007). What Are Antibiotics? - Medical News Today. Retrieved March 30, 2014, from http://www.medicalnewstoday.com/articles/10278.php.
2. (2007). Antibiotic resistance - Science Daily. Retrieved March 30, 2014, from http://www.sciencedaily.com/articles/a/antibiotic_resistance.htm.
3. (2006). Antibiotic resistant bacteria | Better Health Channel. Retrieved March 30, 2014, from http://www.betterhealth.vic.gov.au/bhcv2/bhcarticles.nsf/pages/Antibiotic_resistant_bacteria.
4. Regina Bailey (2012). Stopping Antibiotic Resistance - Biology - About.com. Retrieved April 4, 2014, from http://biology.about.com/b/2012/04/06/stopping-antibiotic-resistance.htm.
5. (2008). Penicillium notatum (fungus) -- Encyclopedia Britannica. Retrieved April 7, 2014, from http://www.britannica.com/EBchecked/topic/449894/Penicillium-notatum.
Penicillin, derived from the mold Penicillium, is the first antibiotic to successfully treat bacterial infections on humans. It was accidentally discovered by scientist, Alexander Fleming. While Fleming was growing Staphylococcus, a serious and often deadly infection, in a dish, he noticed the bacteria had stopped growing after a mold found its way
our everyday lives bacteria is constantly surrounding us, some of the bacterium that we encounter are beneficial to us but then there are the ones that are severely detrimental to our health. The way that they effect a persons body can differ from person to person. Many of the “microscopic foes” are very resilient and have a very fast reproduction rate. Not only do they reproduce quickly they sometimes seem to outsmart our immune system and not allow our bodies to fight the infection making it almost impossible to stop them. One thing that a lot if people rely on is the assistance of prescription drugs to get them better but even the drugs are not being effective and we can’t stop the pathogens from invading our personal places such as work, home, school, or anywhere. Even though modern medicine is advancing the pathogens could still get the get the best of us. The scary thing is we never know when the next pandemic or epidemic is going to arise. All it needs is some ordinary microbe to swap genes with a deadly germ to produce a “super pathogen” and it could happen to anyone, anywhere, as it did to Jeannie Brown who is from “our neck of the woods”.
Bacterial resistance to antibiotics has presented many problems in our society, including an increased chance of fatality due to infections that could have otherwise been treated with success. Antibiotics are used to treat bacterial infections, but overexposure to these drugs give the bacteria more opportunities to mutate, forming resistant strains. Through natural selection, those few mutated bacteria are able to survive treatments of antibiotics and then pass on their genes to other bacterial cells through lateral gene transfer (Zhaxybayeva, 2011). Once resistance builds in one patient, it is possible for the strain to be transmitted to others through improper hygiene and failure to isolate patients in hospitals.
Therefore, local communities must take actions regarding antibiotic-resistance, whether they are awareness programs or state and nationally regulated laws. The act of hindering antibiotic-resistance development is also an individual commitment. People must understand the effects of excess antibiotics and commit to making a difference. These acts may be as simple as not demanding unnecessary antibiotics and finish the entire course when antibiotics are prescribed. Regardless to the natural evolution of bacteria, society must delay the development of antibiotic-resistance within bacteria with humanity has hastened
Over the years humans have tried every possibility to overcome the health problems, spread of epidemics and infections, disease control and have worked towards a healthy society free of disease and health problems. They have succeeded to a great extent. The book “Good germs, bad germs” describes that though the life expectancy is now far more as it was in previous eras. Epidemic problems and infectious diseases are now getting lesser and lesser and humans are being treated successfully. The hygienic conditions have also been improved so as to ensure least growth of microbes, germs, parasites and bacteria. Antibiotics have been invented to address diseases and infections caused by bacteria and viruses. With all these substantial efforts the biologists, physicians and scientists have triggered another epidemic which is even more severe. They have killed those microbes and bacterial species which were human friendly and as a result of either their disruption or mutation, pathogenic bacteria have even become more active and resistant to treatments. This has led to increased ineffectiveness of antibiotic drugs, low immunity and various infections and inflammatory diseases. The chlorinated water for drinking and food processing along with excessive hygienic conditions indicates our fight against these bacteria and germs. Further, these antibiotics are even given to the livestock which becomes our food and as result many of their resistant germs end up in our digestive tract and other organs. Thus, the war against microbes through excessive cleanliness and use of antibiotics has resulted in antibiotic resistance among humans, which has become one of the prominent problems of medical science
Antibiotics basically refer to chemical substances that can inhibit and destroy the growth of microorganisms (Gottileb,1976; Katz and Demain,1977). Antibiotic term was first used in 1942 by Selman Waksman to describe any substance produced by a microorganism which interfere with the growth of other microorganism (SA Waksman, 1947). Each antibiotic is produced by a relatively limited number of species and is inherited from specific set of genes. These are the products of secondary metabolism which can be produced commercially by microbial fermentation after active growth has declined. These compounds are generally synthesized in stationary phase especially idiophase (unbalanced growth phase) so these are sometimes called as idiolites(walker, 1974). Their formation is highly influenced not only by the growth conditions but also by the composition of the culture medium.
Throughout history disease has run rampant taking many lives with every passing day. Finding a cure or even just a tool in the battle has been the main focus of scientist throughout time. This focus is what brought us the discovery of antibiotics. Over the years antibiotics have been misused by patients, over prescribed by physicians and have led to resistant strains of bacteria.
The Use of Antibiotics and Hormones in Animal Feed Antibiotics are chemicals produced by living organisms that are used to kill or inhibit the growth of other infectious micro-organisms. Most antibiotics prevent the growth of microorganisms, which they act on instead of completely killing them. Antibiotics are extra cellular products meaning that they can be extracted for use; Penicillin is an example of this as it comes from the fungus Penicillium notatum1. Hormones are chemicals that transfer information and instructions between cells in animals and plants. They regulate growth and development, controlling the function of various tissues.
On the other hand, cells that have 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.
Bacteria are found nearly everywhere within the body and most types are harmless or even helpful to bodily function (Novitt-Moreno). While it is important to have these bacteria in the body, pathogenic invaders can cause serious illnesses. Pathogenic bacteria work by either actually attacking a part of the victim’s body or releasing toxic waste products into the body. Bacteria are single-celled and contain all of the cellular mechanisms needed to live, grow, and reproduce (Novitt-Moreno). That means, when treating a bacterial infection, it is critical to have a highly specific antibiotic that can destroy the unwanted
Urinary Tract Infections (UTIs) Symptoms, Causes, Treatment - What is a urinary tract infection (UTI)? - MedicineNet. (n.d.). Retrieved March 22, 2016, from http://www.medicinenet.com/urinary_tract_infection/page2.htm
"Adenosine - What Is Adenosine?" Adenosine - What Is Adenosine? N.p., n.d. Web. 09 Mar. 2014.
University of Maryland Medical Center. (2013, December 18). What is a Pediatrician?. Retrieved September 12, 2014, from http://umm.edu/programs/childrens/health/about/what-is-a-pediatrician
It is estimated that over one-half of the antibiotics in the U.S. are used in food animal production. The overuse of antimicrobials in food animal production is an under-appreciated problem. In both human and veterinary medicine, the risk of developing resistance rises each time bacteria are exposed to antimicrobials. Resistance opens the door to treatment failure for even the most common pathogens and leads to an increasing number of infections. The mounting evidence of the relationship between antimicrobial use in animal husbandry and the increase in bacterial resistance in humans has prompted several reviews of agricultural practices by scientific authorities in a number of countries, including the US.
The discovery of antibiotics is attributed to Alexander Fleming who discovered the first antibiotic to be commercially used (Penicillin) in approximately 1928. An antibiotic, also known as an antimicrobial, is a medication that is taken in order to either destroy or slow the growth rate of bacteria. Antibiotics are integral to the success of many medical practises, such as; surgical procedures, organ transplants, the treatment of cancer and the treatment of the critically ill. (Ramanan Laxminarayan, 2013)