ABSTRACT
Food safety and quality is a global topic of public concern. Salmonella and Escherichia coli are zoonotic enterobacteria which are responsible for outbreaks of both human and animal diseases called Gastroenteritis. The aim of the study was to determine the antibiogram of Salmonella spp and Escherichia coli causing gastroenteritis in patients. A total of 50 stool samples were collected from different hospitals and Laboratories and analyzed for in this research. Stool samples were cultured within 4 hours of collection. About one gram of stool sample was suspended in sterile nutrient broth and incubated at 370C for 24 hours. The concentrated isolates from the nutrient broth were then used to inoculate MacConkey and Salmonella-Shigella agar plates and incubated at 370C for 24 hours. Colonies that showed typical characteristics of E. coli morphology were subcultured into Eosin-Methylene blue agar and incubated at 370C for 24 hours. Out of the 50 watery stool samples collected, 22(44%) and 28(56%) were obtained from male and female respondents respectively. Frequency of occurrence of the isolates showed that a total of 59 organisms were isolated, E. coli and Salmonella spp had a frequency occurrence of 71.2% and 28.8% respectively. E. coli and Salmonella spp were subjected to several antibiotics drugs. The organisms exhibited multiple resistance to the antibiotics tested, E. coli and Salmonella species both showed highest and least susceptibility to Ceftriazone and Cotrimoxazole respectively. It could be recommended from this study that Ceftriazone, Ciprofloxacin and Gentamicin be used since they are more effective against the E. coli and Salmonella isolates in preference to Co-trimoxazole, Erythromycin, Amoxicillin and Chloramphenicol. Interventions, such as face-to-face counseling, encouraging exclusive breastfeeding and vitamin A supplementation, Promotion of hand washing with soap, Improved water supply quantity and quality, including treatment and safe storage of household water and Community-wide sanitation to be promoted.
TABLE OF CONTENTS
Title
Page i
Certification
ii
Dedication
iii
Acknowledgements
iv
Table
of contents v
Lists
of Tables vii
Abstract
viii
CHAPTER
ONE
1.0 Introduction 1
1.1 Aim 3
1.2 Objectives 3
CHAPTER TWO
2.0 Literature
Review 4
2.1 Escherichia
coli 4
2.1.1 Microbiology of Escherichia coli 4
2.1.2 Classification of Escherichia coli strains causing enteric infection 4
2.1.2.1
EnterotoxigenicE. coli (ETEC) 4
2.1.2.2
EnteropathogenicE. coli (EPEC) 4
2.1.2.3 EnteropathogenicE. coli (EIEC) 4
2.1.2.4
EnteroaggregativeE. coli (EAEC) 5
2.1.2.5
EnterohaemorrhagicE. coli (EHEC) 5
2.1.3 Structure of Escherichia coli 6
2.1.4 Biochemical characteristics of Escherichia
coli 6
2.1.5 Transmission of Escherichia coli 7
2.1.6 Clinical manifestation 7
2.1.7 Laboratory diagnosis of Escherichia coli O157 8
2.1.8 Treatment of Escherichia coli O157
infections in humans 9
2.1.9 Prevention and Control of Escherichia coli
O157 in humans 9
2.1.10
Prevention and control in animals 10
2.2 Salmonella
Species 12
2.2.1 Microbiology of Salmonella 12
2.2.2 Prevalence of Salmonella species 12
2.2.3 Transmission 13
2.2.4 Human Salmonella
infections 13
2.2.5 Clinical manifestations of Salmonellosis in man and animal 14
2.2.6 Laboratory diagnosis 14
2.2.7 Serological Identification 15
2.2.8 Human Salmonella
Infections 16
2.2.8 Treatment of Salmonella 16
2.2.9 Prevention and control 17
2.3 Enterotoxygenicity of E.coliO157 and Salmonella
species 18
2.3.1 Enterotoxins 18
2.3.2 Mechanism of action of LT and ST enterotoxins 18
2.3.3 Laboratory detection of enterotoxin
production 19
2.4 Antibacterial agents 20
2.4.1 Mechanism of action of antibiotics 20
2.4.2 Antibiotic resistance 21
2.4.3 Mechanisms of antibiotic resistance 22
2.4.3.1
Target alteration 22
2.4.3.2
Cell wall impermeability 23
2.4.3.3
Enzymatic modification or destruction 23
2.4.3.4
Active efflux from the cell 24
2.4.4 Genetic Basis and Spread of Antimicrobial
Resistance 24
CHAPTER THREE
3.0 Materials and Methods 26
3.1 Materials 26
3.1.1 Culture media 26
3.1.2 Reagents and diagnostics 26
3.1.3 Equipment 26
3.1.4 Antibiotic discs 26
3.2 Methods 27
3.2.1 Study area and dynamics 27
3.2.2 Sample collection and treatment 27
3.2.3 Identification and characterization of
isolates 28
3.2.3.1
Gram staining 28
3.2.3.2 Motility
test 28
3.2.3.3
Biochemical tests 29
3.2.3.3.1
Urease test 29
3.2.3.3.2 Indole test 29
3.2.3.3.3 Methyl ted-vogesproskauer test 29
3.2.3.3.4 Citrate utilization test 30
3.2.3.3.5 Triple sugar iron agar 30
3.2.3.3.6
Eijkmann test 30
3.2.4 Antibacterial susceptibility testing 31
CHAPTER FOUR
4.0
Results 32
CHAPTER FIVE
5.0
Discussion, Conclusion and Recommendation 39
5.1 Discussion 39
5.2 Conclusion 41
5.3 Recommendation 41
References 42
LIST
OF TABLES
Table Title
Page
4.1: Source of samples 33
4.2: Age bracket of respondents 34
4.3: Gram and biochemical
characterization of isolates 35
4.4: Frequency of occurrence of
isolates 36
4.5: Antibiotic
susceptibility pattern of E. coli 37
4.6: Antibiotic susceptibility
pattern of Salmonella species 38
CHAPTER ONE
1.0 Introduction
Food safety and quality is a global
topic of public concern. Salmonella
and Escherichia coli are zoonotic
enterobacteria that are responsible for outbreaks of both human and animal
diseases called Gastroenteritis and have important health significance
worldwide, with several transmission routes of which majority of human
infections are being derived from the consumption of contaminated foods such as
insufficiently cooked meat or improperly pasteurized milk and milk products
(Jackson etal., 2007).
Gastroenteritis is of
significant public health concern, because humans and animals can become
infected from consumption of food/feed and drinking water contaminated with Salmonella
and Escherichia coli spp. from feaces of infected animals and raw milk
products which have not been adequately pasteurized (Jackson et al.,
2007).
Gastroenteritis-causing
pathogens are the second leading cause of morbidity and mortality worldwide.
The organisms responsible are rotaviruses, Norwalk-like viruses,
enterotoxigenic Escherichia coli (ETEC),
Campylobacter jejuni and Clostridium difficile, Shigella spp., Salmonella and
Escherichia coli spp., Cryptosporidium spp. and Giardia lamblia. These organisms are readily transmitted via food,
water, environmental contacts, pets and from person to person, with morbidity
rates in developing countries 3-to-6-fold higher than in developed countries
(Acha et al.,2003)
Salmonella spp and Escherichia coli
are important cause of bacterial contamination of the environment and the food
chain (Ponce et al., 2008), and are the leading causes of acute
gastroenteritis in several countries. In developing countries, contaminated
vegetables, water and human-to-human transmission are believed to contribute to
comparatively larger proportion of human cases than those in industrialized
countries (Acha et al.,, 2003).
Salmonella and Escherichia
coli have been associated with
documented food-borne illness episodes in the past 20 to 30 years and their
numbers appear to be increasing (Fratamico et al., 2005).
Acquired antibiotic resistance
is a growing worldwide problem due to abusive use of antibiotics in humans,
animals and agriculture. Food contamination with antibiotic resistant bacteria
can be a major threat to public health, as the antibiotic resistant determinant
can be transferred to other bacteria of human significance. This is in view of
the fact that the prevalence of antibiotic resistance among food borne
pathogens has increased during past decades (Van et al., 2007).
The global problem of antimicrobial
resistance is particularly pressing in developing countries with reservoirs of
resistance present in healthy human and animal populations and also the
increasing resistance to flouroquinolones by Salmonella and Escherichia coli
spp as reported in Lagos, which is of public health concern. Antimicrobial resistance has complicated the selection of
antibiotics for the treatment of enteric bacterial pathogens, particularly to
commonly used antimicrobial agents such as ampicillin, tetracycline and trimethoprim–sulfamethoxazole(Van et al., 2007).
Antibiograms give information
that can be used to raise awareness of resistance problems, support the use of
optimal empiric treatment, and identify opportunities to reduce inappropriate
antibiotic usage and to discover success of such efforts (Fridkin et al., 2001).
A typical antibiogram displays
the total number of bacterial isolates tested against a range of antimicrobials
and includes the percentage of bacterial isolates susceptible or resistant to
each antimicrobial agent tested (Fridkin et al., 2001).
1.1 Aim
The aim of this study is to
determine the antibiogram profiles of Salmonellaspp and Escherichia coli species
causing gastroenteritis in patients in umuahia.
1.2 Objectives
The specific objectives of the
study are to:
1.
Isolate and
identify Salmonella spp and
Escherichia coli causing
gastroenteritis among patients in Umuahia.
2.
Determine the prevalence of Salmonella spp and Escherichia coli causing gastroenteritis in patients in Umuahia.
3. Determine the antimicrobial resistance patterns of Salmonella spp and
Escherichia coli
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