ABSTRACT
A total number of 100 samples were collected from 22 different churches in Umuahia, Abia state. The samples were collected from the mouthpiece and handles of the various microphones with a sterile swab stick moistened with normal saline. A total of 85 isolates comprising of eight (8) genera were isolated from the samples. These organisms include; Staphylococcus aureus, Coagulase negative Staphyococcus (CoNS), Streptococcus sp, Micrococcus sp, Bacillus sp, Proteus sp, Escherichia coli and Pseudomonas aeruginosa. Frequency distribution of the isolates showed that Staphylococcus aureus were (5.88%), Coagulase negative Staphylococcus (CoNS) were (11.76%), Streptococcus sp. (9.41%), Micrococcus sp. (1.18%), Bacillus sp. (3.53%), Proteus sp. (17.65%), Escherichia coli (36.47%) and Pseudomonas aeruginosa (14.12%). The percentage sensitivity and resistance of the isolates to different antibiotics showed that all the isolates were 100% sensitive to Peflacine, Ciprofloxacin and Gentamicin. The highest percentage resistance of 42.85% was recorded for Ampicillin while the least percentage resistant of 14.28% was recorded for Tarivid, Streptomycin and Ceporex each.
TABLE OF CONTENTS
Cover page
Title page i
Certification ii
Dedication iii
Acknowledgement iv
Table of Contents v
List
of Tables viii
List
of Figures ix
Abstract x
CHAPTER ONE
1.0 Introduction 1
1.1 Background of study 2
1.2 Aims and objectives 2
1.3 Significance of the study 3
CHAPTER TWO
2.0 Literature review 4
2.1 Microphones 5
2.2 Types of Microphones 6
2.3
History of Microphones 6
2.4 Uses of Microphones 8
2.5 Sources of Microphone Contamination by
Bacteria 8
2.6 Factors affecting the survival of
Bacterial cells on surfaces 9
2.6.1 The
surrounding environment 9
2.6.2 Characteristics
of the Organism 9
2.7 Transmission of Bacterial Organisms 10
2.8 Factors
affecting the rate of transfer of Bacteria 10
2.8.1 Bacterial specie
type 10
2.8.2 Source and
Destination Surfaces 10
2.8.3 Time 11
2.8.4 Inoculums size on
surfaces 11
2.8.5 Moisture level 11
2.3 Various bacteria associated with microphone
contamination 12
2.3.1 Staphylococcus
aureus 12
2.3.2 Coagulase Negative Staphylococcus (CoNS) 12
2.3.3
Micrococcus sp 13
2.3.4 Bacillus
species 13
2.3.5 Pseudomonas
aeruginosa 13
2.3.6 Proteus sp 14
2.3.7
Escherichia coli 14
2.3.8 Streptococcus sp 15
CHAPTER THREE
3.0 Materials and Methods 16
3.1 Study Area and Sample Collection 16
3.2 Materials 16
3.3 Preparation of Culture Media 16
3.3.1
MacConkey Agar 16
3.3.2
Blood Agar 16
3.3.3
Nutrient Agar 17
3.4 Sterilization 17
3.5
Bacteria isolation 17
3.6 Characterization of Bacterial Isolates 17
3.7 Morphological Examination 17
3.7.1 Gram Staining Technique 17
3.7.2 Coagulase test 18
3.7.3 Citrate test 18
3.6.4 Motility test 18
3.6.5 Indole test 19
3.6.6 Urease test 19
3.6.7 Catalase test 19
3.6.8 Triple Sugar Iron (TSI) Test 19
3.6.7 Oxidase test 20
3.6.8 Antibiotic Sensitivity Testing 20
3.6.9 Data Analysis 20
CHAPTER FOUR
4.0 Results 21
CHAPTER FIVE
5.0 Discussion 30
5.1 Conclusion 31
5.2 Recommendations 32
REFERENCES 33
LIST OF TABLES
Tables Tittle Page
1 Source
of samples 22
2 Morphological
characteristics of isolates 23
3 Biochemical
identification of isolates 24
4 Percentage
of occurrence of different isolates 25
5 Incidence
of multiple colonization 26
6 Antibiotic
sensitivity pattern of isolates 27
LIST OF FIGURES
Figures Tittle Page
1 Percentage
occurrence of different isolates 28
2 Percentage
sensitivity and resistance of the isolates
of
different antibiotics 29
CHAPTER ONE
1.0 INTRODUCTION
Bacteria
are single cell organisms with cell walls containing the structural molecule
peptidoglycan. Although most bacteria lack membrane bound organelles, a few
members of the unusual phylum planctomyces have their genetic materials
surrounded by a membrane. Bacteria are abundant in soil, water and air
including site with extreme temperatures, pH or salinity. They are also major
inhabitant of our skin, mouth and intestine (Sheerwood et al., 2013). Bacteria are prokaryotic organisms which vary in
sizes measuring approximately 0.1-10.0µm. they are widely distribution and can
be found in air, soil etc. some bacteria can cause diseases for human, animals
and plants while some are harmless (i.e. live in human bodies as normal flora).
Bacteria of medical importance measures (0.2-1.5µm) in diameter,(3-5µm) in
length. Bacteria exist in different morphology such as rod-bacilli, cocci
(spherical or oval shape), vibrios (comma- shaped), spirilla (rigid spiral
forms) and spirochetes (flexible spiral forms). Bacteria reproduce by
conjugation and binary fission. Bacteria can be classified as either Gram
positive or Gram negative, sporulating or non- sporulating, aerobic or
anaerobic, facultative or obligate. Bacteria
can survive in the microscopic grooves and cracks on surfaces and will go
unnoticed. Oils in the skin, dust, grime moisture and warmth from central
heating systems provide an ideal environment for these bacteria to accumulate.
Bacteria such as E.coli can survive on dry air or sunlight (Ashgar and
El-said., 2012). Bacteria that can cause severe gastroenteritis have been found
on frequently touched surfaces. Majority (80%) of infection are spread through
hand contact with surfaces. Various gram –ve bacteria and gram +ve cocci (GPC)
were isolated from daily used gadgets like computer, microphones, mobile
phones, stethoscopes etc. (Chandra et
al.,2014) computer keyboards, mice, elevator buttons and shopping carts
(Al-Ghamdi et al., 2011). Roxburgh
demonstrated that bacteria can be readily transferred from hands to almost any
frequently used surfaces. Some epidemiological studies have suggested that
contaminated may play a role in the spread of respiratory bacteria and viruses
(Roxburgh, 2005) and lab studies have supported this hypothesis (Bures et al., 2000).
Scientific research has shown that commonly used surfaces are potential sources
of infectious bacteria leading to the spread of sickness and diarrhea (Reynolds
et al., 2005). Fomites such as Microphones carry germs and when
one touches it and then touches the mouth, nose, eye etc., there may be transfer
of germs in the body. The presence of pathogenic bacteria on the user interface
of Microphone possesses a potential risk to vulnerable, immune compromised
individuals. It has been shown that hard, nonporous surfaces have the highest bacteria
transfer rates to hands (Rusin et al., 2002).
1.1 BACKGROUND OF STUDY
Microphones
are commonly used in churches, schools, seminars, ceremonies and public
gatherings. Bacteria contamination of microphones is a major health hazard and
plays an important role in the transmission of different diseases in public gatherings,
schools and churches
1.2 AIM OF THE STUDY
The
aim of this study is:
To determine the bacteria associated with
microphone contamination used in places of worship.
1.3 OBJECTIVES
OF THE STUDY
The
objectives of this study are:
1.
To isolate bacteria associated with microphone contamination.
2.
To characterize and identify different
bacteria associated with microphone contamination.
3. To ascertain the antibiotic sensitivity pattern
of the bacteria isolate
1.4 SIGNIFICANCE OF THE
STUDY
This
study will be of great importance in the rebirth of “microphone hygiene” among
the general public by enlightening them on the role microphones play in the
spread and transmission of disease causing organisms.
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