AERO FLORA OF MEDICAL LABORATORIES IN UMUAHIA, ABIA STATE

0 Review(s)

Product Category: Projects

Product Code: 00008802

No of Pages: 57

No of Chapters: 1-5

File Format: Microsoft Word

Price :

₦3000

Add to Cart
Buy Now

Report This Item

ABSTRACT

Microbial damage in indoor or outdoor areas, is caused most frequently by molds and bacteria. The aim of this research is to identify and isolate air microflora in medical laboratories in Umuahia, Abia State. Prepared plates were exposed to air for 30mins at different sites in the respective medical laboratories. After sampling, all plates were immediately taken to the microbiology laboratory and incubated at 37ºC for 24 hours for isolation of bacteria. The colonies were sub-cultured onto a new fresh medium in order to obtain pure culture. After incubation and series of biochemical tests , a total of seven microbial genera were revealed which include Bacillus specie, Staphylococcus aureus, Microococcus species, Escherichia coli, Klebsiella sp, and four fungal genera which belong to Aspergillus niger and Penincillium sp, Aspergillus fumigatus and Aspergillus flavus. the percentage occurrences of the isolated organisms are Bacillus species (23.0%), S. aureus (23.0%), were predominant, followed by Micrococcus spp (13.5%), E.coli (13.5%), P. aeruginosa (13.5%), Streptococcus spp (9.0%), while Klebsiella spp (4.5%) was least predominant while the percentage occurrence of fungal isolates. A. niger (40%) was predominant followed by Penicillium spp (30%), A. fumigatus (20%), and A flavus (10%). All the drugs inhibited Bacillus spp except Norfloxacin and Septrin. Norfloxacin Erythromycin, Chloramphenicol, Septrin and Augumentin didn’t inhibit S.aureus but others did. Every one of the drugs inhibited micrococcus spp. Except Levofloxacin, Rifampicin, Amoxil, Norfloxacin and E. all the drugs inhibited E. coli. Only Septrin and Augumentin didn’t inhibit Pseudomonas aeruginosa and Klebsiella spp, but others did. In order to develop the quality of indoor air in our medical laboratories buildings overcrowding has to be avoided, good ventilation systems has to be designed and good hygiene practice must be observed.

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 Aims and Objectives 3

1.2 Objectives 3

CHAPTER TWO

2.0 Literature Review 4

2.1 Air Pollution 7

2.2 Airborne Microbial Load in Hospitals 8

2.3 Bioaerosols 9

2.4 Types of Bioaerosols 9

2.5.1 Ejection of bioaerosols into the atmosphere 17

2.5.2 Small scale transport via clouds 17

2.5.3 Large scale transport via dust plumes 18

2.4 Sources Influencing Bioaerosols 20

2.5 Factors Affecting Bioaerosols 21

2.6 Health Risks 22

CHAPTER THREE

3.0 Materials and Methods 25

3.1 Collection of Samples 25

3.2 Media Used 25

3.3 Sterilization 26

3.4 Isolation of Microorganisms 26

3.5 Characterization and Identification of the Bacterial Isolates 26

3.5.1 Grams Staining 26

3.6 Biochemical Characteristics of the Isolates 27

3.6.1 Motility Test 27

3.6.2 Indole Test 28

3.6.3 Citrate Utilization 28

3.6.4 Sugar Fermentation 28

3.6.5 Oxidase Test 29

3.6.6 Coagulase Test 29

3.6.7 Urease Test 29

3.6.8 Methyl Red/ Voges Proskauer Test 30

3.6.9 Sugar Fermentation Tests 30

CHAPTER FOUR

4.0 Results 31

CHAPTER FIVE

5.0 Discussion, Conclusion and Recommendation 40

5.1 Discussion 40

5.2 Conclusion 43

5.3 Recommendation 43 References 44

LIST OF TABLES

Table Title Page

1 Pathogenic Microorganisms associated with the air medical laboratories 34

2 Identification and characterization of isolated bacteria 35

3 Identification of fungi isolated from air of medical laboratories 36

4 Antibiotics sensitivity profile of bacteria isolated 37

5 from air of medical laboratories

6 Percentage occurrence of the isolated organisms 38

7 Percentage occurrence of isolated Fungal isolates 39

CHAPTER ONE

1.0 INTRODUCTION

Microorganisms are ubiquitous, and mixtures of microbes are often transferred to everyday objects from the environment and infected individuals. Microbial damage in indoor/ outdoor areas, is caused most frequently by molds and bacteria. These micro-organisms have a very important role in the biogeochemical cycle, as their task consists of disintegrating organic mass to reusable metabolites. Air pollution plays a significant role in airborne diseases which is linked to asthma. Pollutants are said to influence lung function by increasing air way inflammation (Mitchell et al., 1994).

Pathogenic microbes are transmissible via air, skin, food, water and other interpersonal contacts, and in most cases, they cause diseases and infections. In the environment spores of molds and bacteria may become airborne and are therefore ubiquitous. Airborne diseases include any disease that are caused by pathogens and transmitted through the air. Airborne pathogens or allergens often cause inflammation in the nose, throat, sinuses and the lungs. This is caused by the inhalation of these pathogens that affect a person's respiratory system or even the rest of the body. Sinus congestion, coughing and sore throats are examples of inflammation of the upper respiratory air way due to these airborne agents. The air inhaled by people is abundantly populated with microorganisms which form so-called bioaerosol (Wojtatowicz et al., 2008).

Bioaresol is a colloidal suspension, formed by liquid droplets and particles of solid matter in the air, whose components contain or have attached to them viruses, fungal spores and conidia, bacterial endospores, plant pollen and fragments of plant tissues (Karwowska, 2005). One kind of indoor air pollutant is airborne microorganisms which are bacteria and fungi (Jones, 1999). They are factors of potential infectious, allergenic and immunotoxic effects. Indoor microflora is reported to be responsible for health problems, especially among children (Di Giorgio et al., 1996). Bioaerosols decrease air quality and affect human health, also causing some diseases such as tuberculosis, diphteria, legionellosis, fever, rhinitis, nausea and asthma (Maus et al., 2001).

Possible sources of biological contamination of indoor air include: people, organic dust, various materials stored in the buildings, and the air inflowing from the ventilation and air conditioning systems. Additionally, microorganisms may affect the general health of people who work on the premises or use library resources. The findings of epidemiological research indicate that exposure to high concentrations of microbes in the air frequently leads to allergies, asthma, hay fever pneumonia, and many other health side-effects, including infections (Rennet al., 2001). Biological factors such as fungal spores and mites are involved in sick building syndrome, a complex situation in which occupants experience a variety of symptoms and become generally unwell, recovering only when they cease to frequent the building (Ross et al., 2000).

In recent years, a dramatic increase in the number of allergic reactions to fungal spores has been observed. Young people, including students, constitute a large group of allergy sufferers; they experience the above-mentioned allergic symptoms throughout the year, but the symptoms intensify during spring and summer months (Karbowska-Berent et al., 2011).

Exposure to bio-aerosols, containing airborne microorganisms and their by-products, can result in respiratory disorders and other adverse health effects such as infections, hypersensitivity pneumonitis and toxic reactions (Gorny et al., 2002).

1.1 AIMS AND OBJECTIVES

The Aim of this study is to assess the air quality of medical laboratories in Umuahia Abia, State.

1.2 OBJECTIVES

1. To isolate pathogenic microorganisms associated with the air of medical laboratories in Umuahia, Abia State.

2. To identify and characterize bacteria associated with the air of medical laboratories in Umuahia, Abia State.

3. To identify fungi associated with the air of medical laboratories in Umuahia, Abia State.

4. To determine the antibiotics sensitivity profile of bacteria isolated from air in medical laboratories in Umuahia, Abia State.

Click “DOWNLOAD NOW” below to get the complete Projects

FOR QUICK HELP CHAT WITH US NOW!

+(234) 0814 780 1594

Buyers has the right to create dispute within seven (7) days of purchase for 100% refund request when you experience issue with the file received.

Dispute can only be created when you receive a corrupt file, a wrong file or irregularities in the table of contents and content of the file you received.

ProjectShelve.com shall either provide the appropriate file within 48hrs or send refund excluding your bank transaction charges. Term and Conditions are applied.

Buyers are expected to confirm that the material you are paying for is available on our website ProjectShelve.com and you have selected the right material, you have also gone through the preliminary pages and it interests you before payment. DO NOT MAKE BANK PAYMENT IF YOUR TOPIC IS NOT ON THE WEBSITE.

In case of payment for a material not available on ProjectShelve.com, the management of ProjectShelve.com has the right to keep your money until you send a topic that is available on our website within 48 hours.

You cannot change topic after receiving material of the topic you ordered and paid for.