ABSTRACT
The use antibiotics in poultry poses a risk of dissemination of antibiotic resistant bacterial pathogen in the general public. The aim of this study was to assess the antibiotic resistance profile of E.coli isolated from poultry farms in Umuahia. A total of 50 samples made up of 25 cloacal and 25 fecal samples gotten from different poultry farms in Umuahia were taken to the laboratory for microbial analysis. The isolates were characterized based on colonial morphology and biochemical characterization and were subjected to different commercial antibiotic disk. A total of 18(36.0%) isolates were obtained from the 50 samples which were subjected to various antibiotic drugs using disc diffusion method. All the isolates 18(100%) showed 100% resistance to Augumentin, Cefuroxime, Impenem, Cefexime while others showed low levels of resistance. A total of sixteen (16) strains of E.coli isolates were multidrug resistance to three (3) antibiotic drugs namely Augumentin, Ceftriaxone and Cefotaxime. From this study, it shows there is a need for continuous monitoring of antibiotics susceptibility pattern in order to influence antibiotics use among farm animals by farmers and protect presently effective antibiotics used against E.coli infections.
TABLE OF CONTENTS
Title Page i
Certification ii
Dedication iii
Acknowledgements iv
Table of Contents v
List of Tables vii
Abstract
ix
CHAPTER ONE
1.0
INTRODUCTION 1
1.1 Aim
And Objectives 3
1.2 Objectives 3
CHAPTER TWO
2.0LITERATURE
REVIEW
2.1 Escherichia coli 4
2.2 Diversity of Escherichia coli 4
2.3 Antibiotic Resistance 6
2.4
Antimicrobial Resistance of Escherichia
coli in Poultry Environment 10
2.5 Survival and Growth of Escherichia coli in Natural Environment 12
2.6 Environmental Factors Influencing
the Growth and Survival 13
of Escherichia coli
2.6.1 Temperature 13
2.6.2 Water availability 14
2.6.3 Nutrient availability 14
2.6.4 pH 15
CHAPTER
THREE
3.0 MATERIALS AND METHODS 16
3.1 Sample Collection 16
3.2 Preparation of
Media 16
3.3
Sterilization 16
3.4
Enumeration of Microorganisms From Poultry Samples 16
3.5 Biochemical and Characterization
OF Isolates 17
3.5.1 Gram Staining 17
3.5.2 Indole Test 17
3.5.3
Hydrogen Sulphide (H2S) Production Test 18
3.5.4 Citrate Test 18
3.5.5
Urease Test 18
3.6 Antibiotic Sensitivity Tests 19
CHAPTER FOUR
4.0 RESULTS 20
CHAPTER FIVE
5.0 DISCUSSION, CONCLUSION AND RECOMMENDATION 25
5.1 Discussion 25
5.2 Conclusion 27
5.3
Recommendation 28 References 29
LIST OF TABLES
Table Title Page
1 Frequency
of Isolation of E.coli isolates 21
2 Morphological
and Biochemical characteristics of the isolate 22
3 Antibiotic
Susceptibility Profile of E.coli Isolate 23
4 Drug
Resistance Pattern of E.coli isolate 24
CHAPTER
ONE
1.0
INTRODUCTION
Antibiotic
resistance is a significant worldwide public health concern both because of
resistance found in specific pathogens and because resistance harbored by
commensal organisms may serve as a reservoir of traits that can be disseminated
to pathogens (Li and Wang, 2010). Antibiotic resistant bacteria that normally
pose no immediate disease risk can also become opportunistic pathogens that
complicate post-operative recovery or otherwise become problematic for
immunocompromised individuals (Bonomo, 2011). While a number of ecological
factors probably contribute to the dissemination and maintenance of antibiotic
resistance traits, it is clear that antibiotic use is a primary factor that
selects for the evolution and amplification of antibiotic resistant bacteria in
humans and animals. The rising prevalence of antibiotic resistance is a particularly
important problem in developing countries where there is limited control of the
quality, distribution and use of antibiotics in human medicine, veterinary medicine,
and food-animal agriculture (Okeke et al.,
2010).
Escherichia
coli have been observed to
contaminate poultry meat of retail market in Nigeria, with Escherichia coli contamination accounting for 43.4% of chicken
meat and 39.1% of turkeys. However, evidence of
a growing and varied presence of antibiotic resistant Escherichia coli (Escherichia coli ) has been observed,
especially in Imo state and other parts of the country without any seasonal
variation. This antibiotic resistance can be found among both pathogenic and
non-pathogenic strains of Escherichia coli in commercially available
broilers. Majority of the strains of Escherichia coli do not cause disease, but the virulent
strains can cause diseases such as gastroenteritis, urinary tract infections,
neonatal meningitis, hemorrhagic colitis and Crohn’s disease in humans. In rare
cases, virulent strains are also responsible for hemolytic-uremic syndrome,
peritonitis, mastitis, septicaemia and gram-negative pneumonia.6
some common signs and symptoms of infection by Escherichia
coli include severe abdominal
cramps, vomiting, diarrhea, hemorrhagic colitis and sometimes fever. Very young
children are most susceptible to develop severe illness such as hemolytic
uremic syndrome (HUS), however healthy individuals of all ages are at risk to
the severe consequences that may arise as a result of being infected with Escherichia
coli (Hessain et al., 2013) Indiscriminate and irrational
use of antibiotics, as whole flocks are most times treated with antibiotics
rather than sick individual birds, is largely responsible for the widespread
development of antibiotic resistance with a
progressive reduction in antibiotic efficacy in the treatment of bacterial
infections in both humans and animals. This increases antibiotic selection
pressure for resistance in bacteria among poultry and, consequently observation
of a relatively high proportion of resistant bacteria among their bacterial
flora. In animal farms such as poultry, drugs
are used for both therapeutic and prophylactic purposes to the whole herd; and
in many cases, in the earlier stage of life, as growth promoters, in
sub-therapeutic concentrations. In humans, antibiotics are administered to sick
individuals only. Most of the common infections that should otherwise be easily
treatable in people with limited economic resources may now require expensive
medical care, invariably making treatment unavailable to this large population
of people (Lin et al., 2014).
Pathogenic
Escherichia coli cause serious
food poisoning in humans and occasionally are responsible for product recalls
due to contamination of food. In the
United States, it is estimated that Escherichia coli 0157:H7 makes over 73,000 people/year
sick, with an annual estimated 2,100 hospitalizations and 61 Escherichia coli -related deaths. Escherichia coli from food animals were widely observed, thereby presenting
antimicrobial resistance burdens, with the high possibility of limiting
therapeutic options. Also, Gillings and Stokes, (2012) demonstrated the presenece of multi-drug resistant clones and
resistance plasmids of Escherichia coli among were commonly transmitted from broilers
and turkeys to the farmers and those who slaughter these animals.
1.1
AIM AND OBJECTIVES
The aim of the study is to access the
antibiotic resistance profile of Escherichia
coli isolated from poultry farms in Umuahia.
1.2 OBJECTIVES
a. To isolate and identify Escherichia coli from poultry farms in Umuahia
b. To determine the antibiotic resistance profile
of the isolated Escherichia coli from
poultry farms in Umuahia.
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