In Vitro Determination of Bactericidal Effect of Garlic on Staphylococcus Aureus

In Vitro Determination of Bactericidal Effect of Garlic on Staphylococcus Aureus

ABSTRACT

In vitro determination of bactericidal effect of garlic extract on staphylococcus aureus causing skin and urinary tract infection (UTI) on some female patients were studied. High vagina swab (HVS) samples were collected randomly from selected number of patients who had symptoms similar to that of Staphylococcus aureus activities. The samples were inoculated on Macconkey agar and nutrient agar and incubated at 370c for 24-48 hrs. Colonies that appeared pinkish in whitish creamy and yellowish on nutrient agar were gram stained and examined microscopically. Also, biochemical tests were carried out in order to characterize the organism present in each positive sample 80% of the samples examined were found to react positively to Staphylococcal infections. It’s prevalence is more among the age range of 18 – 30 years. It is suggested that government should encourage public health education on the potency of the cheap and readily available antibacterial agent like garlic and it’s addition to daily dietary which will act as a prop drug especially to women to reduce the incidence of S. Aureus that causes skin and urinary tract injection. Garlic extract has been proved to be an excellent cure to the ailment.

TABLE OF CONTENTS

Title page
Certification
Dedication
Abstract
Acknowledgement
Table of content
List of tables
List of figures

CHAPTER ONE

1. Introduction1.1 Aim and objectives
1. Hypothesis
2. Delimitation
3. Statement of problem

CHAPTER TWO

2. LITERATURE REVIEW

CHAPTER THREE

3. Materials and method3.1 Bacteriological culture
1. Sterilization
2. Collection and transport of specimens
3. Laboratory examination of H.V.S. Sample
4. Biochemical characterization of isolates catalase
5. Procurement and extraction of garlic extract
6. Serial dilution
7. Disc preparation
8. Impregnation of the garlic extract into the paper disc.
1. Sensitivity testing of garlic extract

CHAPTER FOUR

4. Result4.1 preliminary identification of bacteria isolates

1. Biochemical test showing staphylococcus aureus
2. Sensitivity testing using garlic extract and three antibiotics indicating their zone of inhibition.

CHAPTER FIVE

5. Discussion, conclusion and recommendations5.1 Discussion

1. Conclusion
2. Recommendation

LIST OF TABLES

PAGE

I The level of bacteria according to age range 37
II. Preliminary identification of bacteria isolates 38
III. Biochemical test carried out to identify staphylococcus
Aureus 39
IV Sensitivity testing using garlic extract and three
antibiotics 40
V Table for minimum inhibitory concentration 40
VI Bacteriocidal evaluation of garlic extract 41

LIST OF FIGURES PAGES

I CHEMICAL STRUCTURE OF ALLICIN 30
II Flow chart of garlic extract 30
III Flow chart of serial dilution 31
IV Disc before incubation 35
V Disc after incubation 36

CHAPTER ONE

1.0 INTRODUCTION

Allium satirum commonly known as garlic is an odoriferous plant belonging to a family lilacease. It is a small perennial herb with narrow flat leaves and surrounded by membranous patches, it is grown mostly in Northern Nigeria. It is used primarily for seasoning or spice and also for its medicinal property. The plant contains a medicinal properly just like other plants such as aloes, Indian liquorices, alligator pepper etc. which are also found useful, although the extend is not accurately recorded. The medicinal property of garlic is due to its “sulphur” content which was believed to be responsible for its medicinal value. Garlic as a medicinal plant has been widely used and found to be effective on number of serious infections. Other plants like the ones mentioned earlier also have their medicinal properly, some which is as a result of the presence of ackloids, volatile oils, polyphenol and some related sulphur compound contained in them. Similarly, some are found to be used as vermifuge, stimulating carminative toxic and also as condiments and for treatment of worm bites just like garlic.

The diluted juice of the fresh bulb is used externally as a mild antiseptic and the finely chopped cloves added to food act as an effective vermifuge. By the distillation of the bulb, a volatile oil consisting mainly of daily disulphide and allyl – prop disulphide is obtained. It is used to diminish cough in chronic bronchitic. Meanwhile, in this project work, we shall be working on garlic’s bacteriocidal effect on staphylococcus aureus. Garlic is one of the best-known natural plant that provide Sulphur. Many of the sulphur containing compounds in garlic such as dietlyl – disulphide, propienyl Methyl Sulphide, allicin which stands as organic disulphide present in garlic inactivates the amino acid. Cysteine and such reactions of the garlic disulphide present in garlic may inhibit protein synthesis in microorganism. This reaction may have contributed to the bacteriocidal effect of garlic on bactenal cell. Garlic also contain a glycoside, vitamin B, C and D and allisation I and II, the volatile Sulphur oil which form part of a vermifugal medicinal property. An antibiotic substance “allicin” which appear to be more bacteriostatic than bactericidal has been isolated from the cloves. Barley (1950). It has antibiotic effect on both gram positive and gram-negative bacteria. Example Salmonella typhinurium, staphylococcus aureus, Bacillus Species, Eshericha Coli, etc. (Shelef, 1980).

Staphycoccus aureus is a predominant causative agent of skin and urinary tract infection among men and women. Therefore, urinary tract infection is referred to as infection affecting the urinary system comprising invasion of any of the tissues that make up the tract, extending from the renal cortex to the urethral meatus. Kunin, (1979). These diseases include cystitis – inflammation of bladder, Urethritis – information of the urethra. Also, skin infection is referred to as infection affecting the skin. The organisms are present on the whole skin or part of the skin surface including those in deeper parts of the skin such as the ducts of sebaceous and sweat gland follicles.

Staphylococcus aureus is a gram-positive bacterium, coagulase-positive and a human pathogen which live as a commensal in the anterior nares of over half the normal population. It may also colonize the skin. It is the most common cause of acute pyogenic (pus-producing)) infection in man. It has a marked predilection for the skin and surface structures and causes boils, carbunches, pustules, styles, impetigo (often in association with streptococcus pyogenes), pemphigus neonatorum, and sticky eyes in babies. Acute osteomyelitis in children and mastitis in lactating mothers. It is the commonest cause of infection of wounds and bums. Other staphylococcal species are coagulase-negative (Jackson, M.H. CRAWFORD, J.F, MORIS, G. and SMITH P.G. 1989)

1. AIM AND OBJECTIVES

1. To assess the bacteriocidal property of garlic as alternative to synthetic antibiotics

2. To know the concentration of garlic, extract that will be effective on the pathogen.

3. HYPOTHESIS

HO: – Garlic extract has an inhibitory effect on Staphylococcus aureus isolated from urinary tract infection (UTI) among women.

HIL: – Garlic extract does not have an inhibitory effect on Staphylococcus aureus isolated from urinary tract infection (UTI)

HII: High concentration of garlic extract is needed an inhibitory effect on Staphylococcus aureus UTI among women.

1.3 DELIMITATIONS

– This project work will be limited on only Staphylococcus aureus causing urinary tract infection among women

– Due to time and financial factors, sample and materials collection were limited to Enugu metropolis.

– It is also limited to only the efficacy of garlic extract and the concentration that yield the highest efficacy.

· This work did not go further to determine the normal dose (potency) that will be taken in order to avoid adverse effect in hypersensitivity reactions.

1.4 STATEMENT OF PROBLEM

1. Garlic extract (drug) lose their efficacy after a period of time.

2. Contamination of drug by opportunistic microorganisms during processing.