ABSTRACT
The antimicrobial activity of honey on some pathogenic fungal isolates was investigated. The aim of this study was to test the antimicrobial activity of two honey samples from Nigeria against some pathogenic fungal isolates. The two samples of honey were purchased from Nsukka, in Enugu State and National Root Crop Research Institute, Umudike and were tested against fungal pathogens which includes Aspergillus flavus, Aspergillus niger, Candida albicans and Fusarium spp. The antimicrobial effect of the honey samples were tested using the agar diffusion method. The Minimum Inhibitory Concentration (MIC) and the Minimum Fungicidal Concentration (MFC) of the samples were also determined. The results obtained showed different level of inhibition at various concentrations against the tested fungi isolates with the zones of inhibition increasing as the honeys’ concentration increases. Aspergillus niger showed the highest zone of inhibition among all the fungi isolates used in the study with a diameter zone of inhibition value at 22mm at 100% for honey sample from National Root Crop Research Institute, while the least zone of inhibition of 15mm was recorded against honey from Nsukka, Enugu state at 100% with Candida albicans. The Minimum Inhibitory Concentration result was 9mm, 11mm, 9mm and 8mm for Aspergillus flavus, Aspergillus niger Fusarium spp. and Candida albicans respectively, against honey from National Root Crop Research Institute, Umudike and 10mm, 9mm, 8mm and 7mm for Aspergillus flavus, Aspergillus niger, Fusarium spp. and Candia albicans respectively, for honey from Nsukka, Enugu State. The Minimum Fungicidal Concentration result was 40% - 80% against the fungal isolates for both samples of honey used in this study. The honey samples used in this study exhibited a broad spectrum of antifungal activities, which shows that honeys from Nigeria have an interesting level of antimicrobial effect and can be used as an effective agent for future development and advancement of antifungal drugs.
TABLE OF
CONTENTS
Title page i
Certification ii
Dedication iii
Acknowledgements iv
Table of contents v
List of tables vi
Abstract vii
CHAPTER ONE
1.0 Introduction 1
1.1 Aims
of the study 3
1.2 Objectives
of the study 3
CHAPTER TWO
2.0 Literature
Review 4
2.1 Physiochemical
properties of honey 5
2.2 Benefits
of Honey 8
2.3 Health
Benefits of honey 8
2.3.1 Honey
against infections of the skin 9
2.3.2 Oral
Health 9
2.3.3 Stomatitis
and other oral lesions 10
2.3.4 Honey
against eye diseases 10
2.3.5 Against
Catheter Infection of CKD 11
2.3.6 Honey
in Gastroenterology 11
2.3.7 Ulcers
and Gastritis 12
2.3.9 Laxative
effects and constipation 13
2.3.9 Against
acute gastroenteritis in children 14
2.3.10 Against
alcohol abuse 15
2.3.11 Treatment
of Reflux Oesophagus and Heartburn 15
2.3.12 Hepatitis
and liver health 15
2.3.13 Honey
for good digestion 15
2.3.14 Honey
Against Cough 15
2.3.15 Honey
and the Brain 16
2.4 Nutritional Benefits of
Honey 17
2.5 Cosmetic Uses of Honey 18
2.6 Home Remedies that uses
Honey 19
2.7 Types of Honey according
to Ayurveda 19
CHAPTER THREE
3.0 MATERIALS
AND METHOD 22
3.1 Sample
Collection 22
3.2 Test
Microorganisms 22
3.3 Sterilization
of materials 22
3.4 Media
Preparation 22
3.5 Preparation
of the Honey samples 23
3.6 Common Tests for Real
Honey 23
3.7 Sub-culturing
of the inoculums 23
3.8 Preparation
of inoculum 24
3.9 Determination of antifungal
activity 24
3.10 Determination
of Minimum Inhibitory Concentration (MIC) 24
3.2.7 Determination
of Minimum Fungicidal Concentration (MFC) 25
CHAPTER FOUR
4.0 Results 26
CHAPTER FIVE
5.0 Discussion,
Conclusion and Recommendation 36
5.1 Discussion 36
5.2 Conclusion 38
5.3 Recommendation 38
References
LIST OF TABLES
Table 1: Nutritional Value of Honey
per 100g 18
Table 2: The diameter (mm) zone of inhibition of the honey samples in against the tested
fungal isolates. 28
Table 3: Inhibitory effect of undiluted
(100%) honey on the fungal Isolates
using gel diffusion method. 29
Table 4: Minimum Inhibitory Concentration
(MIC) of the honey samples against the test organisms. 30
Table 5: Minimum
Fungicidal Concentration (MFC) of the honey samples against the test organisms. 31
Table 6:
Typical colony morphology of the test organisms on Sabouraud Dextrose Agar. 32
LIST OF FIGURES
Figure 1:
Inhibitory Effect of undiluted honey 33
Figure 2:
Minimum Inhibitory Concentration of the honey samples 34
Figure 3:
Minimum Fungicidal Concentration of the honey samples 35
CHAPTER ONE
1.0 INTRODUCTION
Honey
is an organic substance that is produced from many different floral sources.
Pollen from flowers are collected by honeybees and taken back to their nest.
When the nectar enters the stomach of bee, it immediately becomes honey.
Enzymes from the head gland called diastase-invertase and enzyme from the
thoracic gland (glucose oxidase), mixed with the nectar in order to enhance the
flavour of honey (Stone et al.,
1958). Honey has been used for its medicinal properties in many cultures, since
in ancient times. Work carried out by Molan (Molan, 1999) reported that honey
is becoming accepted as a reputable and effective therapeutic agent by
practitioners of conventional medicine and by the general public. In today’s
society, it is still being used and is slowly replacing some of the artificial
products used to treat human. According to Bangroo and co- workers, (Bangroo et al., 2005) despite the recent
advances in antimicrobial activities of artificial products, none has
eliminated the problem of infection. In some countries, honey is used as an
antiseptic therapeutic agent for treatment of burns, ulcers and other wounds.
Raw
and unprocessed honey is a type valued for its nutrient and medicinal
properties. Honey contains as much as eight substances that are important to
good nutrient in human. It is a sweet viscous liquid that has high enzyme
content. Honey also contains proteins, carbohydrates, hormones, organic acids
and antimicrobial and antibiotic properties. The composition of honey varies
according to the plant species on which the bee forages, but the main
constituents are the same in all honeys (White et al., 1962). Honey consists mainly of carbohydrates of which
glucose and fructose are most abundant. These two sugars strongly attract water
and as such honey when applied to wounds, absorb water, drying it out so that
the growth of bacteria and fungi are inhibited (these micro-organisms thrive in
moist environment). Secondly raw honey contains enzyme called glucose oxidase
that, when combined with water, produces hydrogen peroxide (Majno, 1975), a
mild antiseptic. In addition, honey also contains antioxidants and flavonoids
that may function as antibacterial agents. The mineral and vitamin content of
honey is very low (about 0.02% of its weight) and given the low consumption of
honey, it thus have no significant nutritional benefit to man. The pH of honey
is low and ranges from 3.2 to 4.5 with the most predominant one being gluconic
acid. These properties of honey are well established. Undiluted honey inhibits
the growth of bacteria such as Staphylococcus aureus, certain gut
pathogens and fungi such as Candida albicans (Obeseiki-Ebor et al., 1984). At a concentration of
30-50%, honey has been shown to be superior to certain conventional antibiotics
in treating urinary tract infections (Molan, 1992). The exact mechanism of the
anti-microbial effect of honey remains obscure. Low pH, osmotic disruption of
pathogens and the presence of bactericidal substances, collectively called
inhibine may all play a part.
Honey
has been reported to be effective in the healing of infected postoperative
wounds (Al-waili et al., 1999). It
has also been reported to inhibit the growth of a lot of bacteria such as Bacillus
cereus, Staphylococcus aureus, Salmonella dublin
and Shigella dysenteriae (El-Sukhon et al., 2001). It has also been reported to inhibit the growth of
anaerobic bacteriodes (Elbagoury et al.,
1993).
The
evidence for the existence of other antimicrobial factors is mainly that the
peroxide-generating system does not account for all of the observed
antibacterial activity, but there have also been some reports of isolation of
antibacterial substances from honey that are not hydrogen peroxide.
Furthermore, it has been found that heating honey, which inactivates the
glucose oxidase, causes loss of activity against some species whilst it is
retained against others (Efem et al.,
1992). Although the stability of the enzyme varies in different honey, there
have been reports of honey with stability well in excess of this variation,
showing that there must be an additional antibacterial factor involved. The
most direct evidence for the existence of non-peroxide antibacterial factors in
honey is seen in the reports of activity persisting in honeys treated with
catalase to remove the hydrogen peroxide activity.
The purpose of this study was to investigate
the anti-fungal action of honey against Candida albicans, Aspergillus niger,
Aspergillus flavus and Fusarium
spp. The experiment was taken up using pure natural honey rather
than commercially processed and strained honey which loses up to half of its
original vitamin content.
1.2 Aims and Objectives of the Study
The
general aim of the research is to determine the antifungal abilities of the honey
samples obtained from different locations in Nigeria
1.3 Objectives of the Study
·
To determine the
antifungal activity of the honey samples against some pathogenic fungal
isolates.
·
To determine the minimum
inhibitory concentration.
·
To determine the minimum
fungicidal concentration.
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