An Updates on Antibiotic Resistance
Volume 2 - Issue 5
Manoj Ramesh Kumbhare*, Ajaykumar Rikhabchand Surana, Apurva Uttamrao Abhale, Ankita Ankush Bhoir and
Shivam Puranmalgi Agrawal
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- S.M.B.T. College of Pharmacy, Nandi hills Dhamangaon Igatpuri, Nashik, India
*Corresponding author:
Department of Pharmaceutical Chemistry, SMBT College of Pharmacy, India
Received: March 26, 2019; Published: April 01, 2019
DOI: 10.32474/DDIPIJ.2018.02.000150
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Abstract
Antibiotics are immense weapon that fight microbes. For decades, several varieties of antibiotics have not only been used for
clinical purposes but practiced across other industries like agriculture and animal husbandry. The regular practice in antibacterial
drug development has been to rapidly make an effort to find ever-more stable and broad-spectrum alternative for a particular
antibiotic, once a drug resistance for that antibiotic is detected. We are now facing bacterial resistance toward our clinically
relevant antibiotics of such a magnitude that the conversation for antimicrobial drug development ought to include effective
new antibiotics with alternative mechanisms of action. Microbial resistance to antibiotics is a world-wide problem in human and
veterinary medicine. It is generally accepted that the main risk factor for the increase in the antibiotic resistance is an extensive use
of antibiotics. This has lead to the emergence and dissemination of resistant bacteria and resistance genes in animals and humans.
The aim of this review is to explore the origin, development, and the current state of antibiotic resistance, regulation, and challenges
by examining available literature. We found that antibiotic resistance is increasing at an alarming rate. A growing list of infections
i.e., pneumonia, tuberculosis, and gonorrhea are becoming harder and at times impossible to treat while antibiotics are becoming
less effective. Antibiotic-resistant infections correlate with the level of antibiotic consumption. Non-judicial use of antibiotics is
mostly responsible for making the microbes resistant. The antibiotic treatment repertoire for existing or emerging hard-to-treat
multidrug-resistant bacterial infections is limited, resulting in high morbidity and mortality report. This review article reiterates
the optimal use of antimicrobial medicines in human and animal health to reduce antibiotic resistance. Evidence from the literature
suggests that the knowledge regarding antibiotic resistance in the population is still scarce. Therefore, the need of educating
patients and the public is essential to fight against the antimicrobial resistance battle. A primary characteristic of antibiotics is that
they lose their effectiveness over time. In the last twenty years, the number of antibiotic classes and analogues in development has
not kept pace with antibiotic resistance. Appropriate use of existing classes of antibiotics could improve the lifespan of these drugs.
The side effects of antibiotic resistance include reduced patient outcomes and increasingly potent disease states. New government
task forces have been developed to increase the level of research and federal involvement into this growing public health problem.
Keywords:Antibiotics; Antibiotic resistance; Treatment; Bacterial infections
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