Open Access
Subscription Access
Open Access
Subscription Access
Review on Antibiotics
Subscribe/Renew Journal
An antibiotic is simply a kind of biological medication capable of killing microorganisms. Now, it is true that antibiotics are primarily used in the cure and prevention of infections, but they can also be used as an individual treatment to reduce the population of certain kinds of bacteria inside your body. Antibiotics are generally taken in order to prevent the spread of infections from one person to another. They can either inhibit the growth or kill off certain bacteria types. The most common antibiotics used to treat infections are tetracycline, doxycycline, minocycline, Erythromycin, or Cephalosporin. Antibiotics are known to be extremely efficient in curing any kind of infection – not just infections of the skin. There are numerous indications where antibiotics are used in the cure and prevention of infections like sinusitis, tonsillitis, asthma, ear infections, urinary tract infections, postnasal drip, colds, flu and even antibiotic-induced diarrhea. However, there are several cases where the said antibiotics are not used because of a certain reason. One major reason why antibiotics are not usually used to cure infections is that the human immune system is weakened over time. Once the immune system is weakened, bacteria of all kinds can easily take the upper hand and cause infections.
Keywords
Antibiotics
Subscription
Login to verify subscription
User
Font Size
Information
- Kümmerer, K. (Ed.). (2001). Pharmaceuticals in the Environment. Sources, Fate, Effects and Risks. Springer, Heidelberg, Germany.
- The Council of the European Union. (2002). Council Recommendation of 15 November 2001 on the Prudent Use of Antimicrobial Agents in Human Medicine (Text with EEA relevance). 2002/77/EC. 5 February, Brussels, Belgium.
- Wise, R., Hart, T., Cars, O. et al. (1998). Antimicrobial resistance is a major threat to public health. British Medical Journal 317, 609–10.
- House of Lords Select Committee on Science and Technology. (1998). 7th Report. The Stationery Office, London, UK.
- Morris, A. K. and Masterton, R. G. (2002). Antibiotic resistance surveillance: action for international studies. Journal of Antimicrobial Chemotherapy 49, 7–10.
- European Federation of Animal Health (FEDESA). (1997).Antibiotics and Animals. FEDESA/FEFANA Press release. 8 September. Brussels, Belgium.
- European Federation of Animal Health (FEDESA). (2001).Antibiotic Use in Farm Animals does not threaten Human Health. FEDESA/ FEFANA Press release. 13 July. Brussels, Belgium.
- Union of Concerned Scientists. (2001). 70 Percent of All Antibiotics Given to Healthy Livestock. Press release. 8 January.Cambridge, MA, USA.
- Wise, R. (2002). Antimicrobial resistance: priorities for action.Journal of Antimicrobial Chemotherapy 49, 585–6.
- Hartmann, A., Golet, E. M., Gartiser, S. et al. (1999). Primary DNA damage but not mutagenicity correlates with ciprofloxacin concentrations in German hospital waste waters. Archives of Environmental Contamination and Toxicology 36, 115–9.
- Kümmerer, K. (2001). Drugs in the environment: emission of drugs, diagnostic aids and disinfectants into wastewater by hospitals in relation to other sources—a review. Chemosphere 45, 957–69.
- Kümmerer, K. and Henninger, A. (2003). Promoting resistance by the emission of antibiotics from hospitals and households into effluents. Clinical Microbiology and Infection, in press. 13.Zuccato, E., Calamari, D., Natangelo, M. et al. (2000). Presence of therapeutic drugs in the environment. Lancet 335, 1789–90.
- D. Ghernaout, Water reuse (WR): The ultimate and vital solution for water supply issues, Intern. J. Sustain. Develop. Res. 3 (2017) 36-46.
- D. Ghernaout, B. Ghernaout, On the concept of the future drinking water treatment plant: Algae harvesting from the algal biomass for biodiesel production––A Review, Desalin. Water Treat. 49 (2012) 1-18.
- D. Ghernaout, N. Elboughdiri, S. Al Arni, Water Reuse (WR): Dares, restrictions, and trends, Appl. Eng. 3 (2019) 159-170.
- D. Ghernaout, N. Elboughdiri, S. Ghareba, Drinking water reuse: One-step closer to overpassing the “yuck factor”, Open Access Lib. J. 6 (2019) 6: e5895.
- D. Ghernaout, Entropy in the Brownian motion (BM) and coagulation background, Colloid Surface Sci. 2 (2017) 143-161.
- D. Ghernaout, A. Simoussa, A. Alghamdi, B. Ghernaout, N.Elboughdiri, A. Mahjoubi, M. Aichouni, A. E. A. El-Wakil, Combining lime softening with alum coagulation for hard Ghrib dam water conventional treatment, Inter. J. Adv. Appl. Sci. 5 (2018) 61-70.
- S. Djezzar, D. Ghernaout, H. Cherifi, A. Alghamdi, B. Ghernaout, M. Aichouni, Conventional, enhanced, and alkaline coagulation for hard Ghrib Dam (Algeria) water, World J. Appl. Chem. 3 (2018) 41-55.
- Y. Kellali, D. Ghernaout, Physicochemical and algal study of three dams (Algeria) and removal of microalgae by enhanced coagulation, Appl. Eng. 3 (2019) 56-64.
- B. Ghernaout, D. Ghernaout, A. Saiba, Algae and cyanotoxins removal by coagulation/flocculation: A review, Desalin. Water Treat. 20 (2010) 133-143.
- D. Ghernaout, S. Moulay, N. Ait Messaoudene, M. Aichouni, M.W. Naceur, A. Boucherit, Coagulation and chlorination of NOM and algae in water treatment: A review, Intern. J. Environ. Monit.
- Analy. 2 (2014) 23-34.
- D. Ghernaout, A. I. Al-Ghonamy, A. Boucherit, B. Ghernaout, M.W. Naceur, N. Ait Messaoudene, M. Aichouni, A. A. Mahjoubi, N. A. Elboughdiri, Brownian motion and coagulation process, Am.
- J. Environ. Prot. 4 (2015) 1-15.
- A. Göbel, A. Thomsen, C. S. McArdell, A. Joss, W. Giger, Occurrence and sorption behavior of sulfonamides, macrolides, and trimethoprim in activated sludge treatment, Environ. Sci.
- Technol. 39 (2005) 3981-3989.
- P. Sukul, M. Spiteller, Fluoroquinolone antibiotics in the environment, Rev. Environ. Contam. Toxicol. 191 (2007) 131162.
- S. Managaki, A. Murata, H. Takada, B. C. Tuyen, N. H. Chiem, Distribution of macrolides, sulfonamides and trimethoprim in tropical waters: Ubiquitous occurrence of veterinary antibiotics in the Mekong Delta, Environ. Sci. Technol. 41 (2007) 8004-8010.
- Gulkowska, H. W. Leung, M. K. So, S. Taniyasu, N. Yamashita, L. W. Yeung, B. J. Richardson, A. P. Lei, J. P. Giesy, P. K. Lam, Removal of antibiotics from wastewater by sewage treatment facilities in Hong Kong and Shenzhen, China, Water Res. 42 (2008) 395-403.
- K. V. Thomas, C. Dye, M. Schlabach, K. H. Langford, Source to sink tracking of selected human pharmaceuticals from two Oslo city hospitals and a wastewater treatment works, J. Environ.
- Monit. 12 (2007) 1410-1418.
- R. H. Lindberg, K. Björklund, P. Rendahl, M. I. Johansson, M.Tysklind, B. A. Andersson, Environmental risk assessment with emphasis on sewage treatment plants, Water Res. 41 (2007) 613-619.
- D. Ghernaout, Greening cold fusion as an energy source for water treatment distillation - A perspective, Am. J. Quant. Chem. Molec. Spectr. 3 (2019) 1-5.
- D. Ghernaout, Aeration process for removing radon from drinking water – A review, Appl. Eng. 3 (2019) 32-45.
- Y. Alshammari, D. Ghernaout, M. Aichouni, M. Touahmia, Improving operational procedures in Riyadh’s (Saudi Arabia) water treatment plants using quality tools, Appl. Eng. 2 (2018) 60-71.
- D. Ghernaout, A. Alghamdi, M. Aichouni, M. Touahmia, The lethal water tri-therapy: Chlorine, alum, and polyelectrolyte, World J. Appl. Chem. 3 (2018) 65-71.
- W. Xu, G. Zhang, X. Li, S. Zou, P. Li, Z. Hu, J. Li, Occurrence and elimination of antibiotics at four sewage treatment plants in the Pearl River Delta, South China, Water Res. 19 (2007) 4526-
- [40] D. Ghernaout, M. Touahmia, M. Aichouni, Disinfecting water: Electrocoagulation as an efficient process, Appl. Eng. 3(2019) 1-12.
- D. Ghernaout, M. Aichouni, M. Touahmia, Mechanistic insight into disinfection by electrocoagulation - A review, Desalin. Water Treat. 141 (2019) 68-81.
- D. Ghernaout, A. Alghamdi, B. Ghernaout, Microorganisms’ killing: Chemical disinfection vs. electrodisinfection, Appl. Eng. 3 (2019) 13-19 .
Abstract Views: 62
PDF Views: 0