ABSTRACT
Salmonellosis and shigellosis are still global health problem, especially, in developing countries where poor sanitation, lack of clean water supply and proper sewage disposal system exist. The emergence of increased antimicrobial susceptibility to Salmonella and Shigella spp are global challenges particularly in developing countries like Nigeria where misused antibiotics by human beings occur. This study aims to investigate the antibiotics susceptibility pattern of these microbes. A total of 60 stool samples were isolated from healthy students of Michael Okpara University of Agriculture Umudike and cultured on Salmonella-Shigella agar for screening of microbes and the antibiotic susceptibility pattern of the isolates were determined following standard bacteriological method. Antibiotic were selected for the test (Amoxicilin, Ampicilin, Nalixidic acid, Ciprofloxacin, Gentamicin, Chloramphenicol and Tetracycline). 9 (15%) Samonella and 7(11.67%) Shigella was isolated from stool samples of both male and female students. Sensitivity of Salmonella was 100% to Chloramphenicol, 60% to Nalixidic acid, Ampicillin and Gentamicin, 40% to Ciprofloxacin and Tetracycline, and 0% Amoxicillin in female. And 75% to Amoxicillin, Nalixidic acid and Gentamicin, 100% to Ciprofloxacin and Chloramphenicol, 25% to Ampicillin and 0% to Tetracycline in male. Shigella had sensitivities of 75% Amoxicillin, Nalixidic acid and Gentamicin and Tetracycline in female and 100% to Nalixidic acids, Chloramphenicol and Ciprofloxacin, 33.3% to Amoxicillin and Ampicillin, 0.0% to Gentamycin and Tetracycline. However, isolates of Samonella and Shigella were 100% susceptible to Ciprofloxacin, Chloramphenicol and Nalixidic acid. This study revealed that isolates of Shigella and Salmonella showed high rate of drug resistance to commonly used antibiotics and all isolates were susceptible to Ciprofloxacin and Chloramphenicol. Therefore Ciprofloxacin and Chloramphenicol can be used as drugs of choice for the treatment of Shigellosis and Salmonellosis.
TABLE OF CONTENTS
Title
page
Certification i
Dedication ii
Acknowledgement iii
Table
of content iv
List
of tables viii
Abstract ix
CHAPTER
ONE
1.0
Introduction 1
1.1
Aims and objectives 3
CHAPTER
TWO
2.0
Literature review
4
2.1
Morphology and culture 4
2.2
Characteristics of the genius Salmonella
and Shigella 5
2.3
Geographical distribution 7
2.4
Pathogenicity of the genus Salmonella 7
2.4.1
Enteric fever 8
2.4.2
Gastroenteritis 8
2.5
Pathogenicity of genus Shigella 9
2.6
Transmission of salmonellosis and shigellosis 10
2.7
Clinical signs and symptoms of Salmonella
infection 10
2.8
Clinical signs of Shigella infection 11
2.9
Prevention and treatment 11
2.9.1
Prevention 11
2.9.2
Treatment 12
2.10
Antibiotic susceptibility and resistance 13
2.11
Classificaion of antibiotics 14
2.12
Mechanism of action of antibiotics 16
2.12.1
Inhibition of cell wall synthesis (Beta- lactams) 16
2.12.2
Inhibition of cell function 17
2.12.3
Inhibition of protein synthesis 17
2.12.4
Inhibition of nucleic acid synthesis 18
2.12.5
Inhibition of other metabolic processes (anti metabolites) 18
CHAPTER
THREE
3.0
Materials and methods 19
3.1
Samples and samples/study population 19
3.2
Specimen collection 19
3.3
Sterilization of glass wares 19
3.4
Preparation of culture media 19
3.5
Preparation of innoculum size 20
3.6
Identification test 20
3.6.1
Gram staining 20
3.7
Biochemical test 21
3.7.1
Catalase test 21
3.7.2
Indole production test 21
3.7.3
Coagulase test 21
3.7.4
Oxidase test 22
3.7.5
Urease test 22
3.7.6
Citrate utilization test 22
3.7.7
Methyl red test 23
3.7.8
Voges prokauer test 23
3.7.9
Motility test 23
3.9
Antibiotics susceptibility test 23
3.9.1
Reading of inhibition 24
CHAPTER
FOUR
4.0
Results 25
CHAPTER
FIVE
5.0
Discussion, conclusion and recommendation 31
5.1
Discussion 31
5.2
Conclusion 33
5.3
Recommendation 33
REFERENCES
LIST OF TABLES
Table 1: Morphological and biochemical
characteristics 27
Table 2: Percentage Occurance 28
Table 3: Antibiogram of Salmonella and Shigella Isolates from Female Students 29
Table 4: Antibiogram of Salmonella and Shigella Isolates frommale students 30
CHAPTER ONE
1.0
INTRODUCTION
The discovery of Salmonella
and Shigella is well documented in
recorded history. As early as the mid 1800s scientific interest in Salmonella was initiated by the
organisms potential etiological association with typhoid fever (Cunha, 2004).Salmonella and Shigella are genus of rod-shaped, gram negative motile,
falcultatively anaerobic bacilli belonging to the family Enterobacteracae.
(Ellermeier and Stauch2006).The bacterial genius, Salmonella is divided into two species, Salmonella bongori and Salmonella
enteric. Salmonella enteric itself comprised of six subspecies; S.enterica subsp.enterica,S.enterica
subsp.salamae,S.enterica susp.arizonae, S.enterica subsp.indica, S.entrica
subsp.boutenae and S.enterica subsp.diarizonaeor I, ii, iiia, iiib, iv and vi
respectively (Porkwollik et al.,2003)
Of
date, there exist over 2,300 serovars identified within subspecies 1. However,
only a small fraction of the thousands of described subspecies 1 serovars
frequently cause disease in human and domestic animals.The bacterial genus Shigella on the order hand is divided
into four species which includes; Shigella
dysenteriae (group A), Shigella
flexneri (group B), Shigella boydii
(group C) and Shigella sonnei (group
D). (Robert, 1995).Shigella is
transferred from person to person usually by asymptomatic carriers and via
contaminated food flies, feces, fingers and water. (Robert, 1995). Infection
caused by Shigella species are
associated with human, no animal reservoir has been identified. Salmonella and Shigella caused mild to severe forms of intestinal tract infection.
Salmonella cause self-limited
gastro-enteritis and the more severe forms of systemic typhoid fever (Kasper et al., 2005). Shigella species are limited to the intestinal tract of humans and
cause bacillary dysentery leading to watery or bloody diarrhea. Bacillary
dysentery or shigelliosis and typhoidal salmonellosis are major diseases caused
by Shigella and Salmonella and they are major health problems in developing
countries which Nigeria is not an exception. Humans acquire the infection by
ingesting the organism in contaminated food and water. These infections are
prevalent in areas where lack of clean water supply, lack of proper sewage
disposal system and flies aggravate the spread of the disease (Kasper et al., 2005). Epidemiological
surveillance is an essential component in controlling Salmonella and Shigella
infections (Shama et al., 2005).
Due to different factors in the last few decades, Shigella and Salmonella have become increasingly resistant to the most commonly
used antimicrobials from selecting the drug for therapeutic management (Gubet al., 2012). The emergence of antibiotics
resistant Shigella and Salmonella are serious problems in
antimicrobial therapy globally. The incidence varies the area of isolation of
these strains. The progressive increase in antibiotics resistance among these
pathogens in developing countries is also becoming a critical area of concern.
( Huruyk et al., 2008).
In developing countries like Nigeria, resistance may
be acquired mostly by selective pressure due to indiscriminate and misuse of antibiotics.
This leads for the emergence of resistance strains of Shigella and Salmonella which
may be difficult for treatment and prevention (Chessbrough, 2009). In the 1940s,
Shigellosis was treated with tetracycline. In the 1970s Ampicillin was the drug
of choice for the treatment of bacillary dysentery (Braud, 1976). After the
pathogen began to develop resistance to Ampicillin the new drug Trimethoprime –
sulphamethoxazole (TMP-SXT) was used (Ericsson et al., 1990). Even if the drug of choice in that time was TMP-SXT,
in the 1980s, the Shigella species
started to develop resistance to the drug. (Harnett et al., 1991). Then the emergence of resistance strains continues
with any new drugs. Until about 1960, nearly all Salmonella were sensitive to a wide range of antimicrobial agents
but since 1962 emergence of resistance, frequently plasmid mediated, have appeared
in Salmonella worldwide. The relative
importance of antibiotics resistance and the serotype, in which it occurs,
differs from country to country (Coburn B, et
al., 2006). Knowing the prevalence and examining the antibiotic
susceptibility pattern of these pathogens is important towards tailoring
treatment to the ever changing resistance patterns and distribution of
pathogenic bacteria.
However, not much work has been done on the incidence
and antibiotic susceptibility pattern of Salmonella
and Shigella species among healthy
students of MOUAU. Such a data will be necessary in order to develop rational
strategies for therapy of Salmonella
infection. Therefore, this study fills the knowledge gap on the prevalence and
antibiotic susceptibility of the pathogenic Salmonella
and Shigella among MOUAU students.
1.1 AIMS AND OBJECTIVES
The broad objective of this study is to review and
ascertain the presence of Salmonella
and Shigella in stool and also the
occurrence of antimicrobial resistance among species of Salmonella and Shigella.The
specific objectives are:
v To isolate and identify Salmonella and Shigella in stool samples of healthy students of MOUAU.
v To know the prevalence of Salmonella and Shigella among both male and female healthy students of MOUAU.
v To determine antibiotic
susceptibility pattern of these organisms and hence provide information on the
best antibiotics to be used for treatment of Salmonella and Shigella
infection.
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