ABSTRACT
This research investigated the phytochemical and
anti-inflammatory properties of methanol extract of Crateva adansonii
stem bark. Although several edible and non-edible plants parts are used in
inflammatory treatment, many record has been found of the use of Crateva
adansonii stem bark. For this research, fresh stem bark of Crateva
adansonii were collected from Asata village in Enugu State. The cuttings
were authenticated at the Bioresource development centre. They were then dried
at room temperature for one month in an open lab space, grounded into powder
and weighed on a beam balance as 460.6g. The powder was soaked for twenty-four
to fourty-eight hours in methanol to get a methanol extract and then
concentrated into paste at a set temperature range of 30-550C
in a water bath. A population of twenty adult wistar Albino rats was used for
anti-inflammatory test. The rats were divided into five (5) groups of four (4)
albino rats each. They were administered 3% tween-80 mixed with dichloromethane
extract of Crateva adansonii and the control was administered with 0.5ml
of 3% tween-80. Acute inflammation was induced an hour after test substances
were administered by injecting egg albumin in the subplanter region of the
right hind paw and edema assessed by mercury displacement for a period of 0-180
minutes. Anti-inflammatory effect was significant within 30 minutes of induced
edema with inhibition occurring in three phases of 0-30, 30-60, 60-90. 90-120
to 180 minutes. Inhibition was highest at the third phase. Crateva adansonii
barks showed anti-inflammatory effect by inhibiting “prostaglandin” synthesis
an inflammatory mediator.
TABLE OF CONTENTS
Title Page
Certification Page
Dedication
Acknowledgements
Abstract
Table of Contents
CHAPTER ONE
1.0 Introduction
1.2 Crateva
Adansonii as a Plant
1.3 Distribution
1.4 Scientific
Classification
1.5 Properties
1.6 Research Aim
and Objectives
1.7 Background
of Study
CHAPTER TWO-LITERATURE REVIEW
2.0 Definition
of Inflammation
2.1 Principle
of Inflammation
2.2 Types
of Inflammation
2.3
Categories of Inflammation
Mediated by the Immune
System
2.4 Mediators
of Inflammation
2.5 Histamine
and Serotonin
2.6 The
Coagulation Mechanism
2.7 Fibrinolysis
2.8 The Kinin –
Forming System
2.9 Inflammation
and Diseases
2.10 Ways
of Treating Inflammation
2.11 Immune
Selective Anti-inflammatory
2.12 The Use of
Herbs in the Treatment of Inflammation
2.13 Anti-Inflammatory
Drugs
2.14 Phytochemicals
2.15 Glycoside
2.16 Flavonoids
2.17 Tannins
2.18 Saponins
CHAPTER
THREE
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3.1
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MATERIALS
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3.1.1
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Equipment/Apparatus Used
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3.1.2
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Animal Used
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3.2.1 Methodology -
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3.2.2 Extraction
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3.2.3 Preparation of Reagents for Phytochemical
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3.2.3 Phytochemical Analysis of the Extract
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3.2.5
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Test for Alkaloide
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3.2.6 Test for Saponin
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3.2.7 Test for Terpenoids
3.2.8 Test for Anthraquinones
3.2.9 Test for Coumarins
3.2.10 Test for Phlobatannins
3.2.11 Test for Flavonoids
3.2.12 Test for Tannins
3.2.13 Test for Saponin
3.2.14 Test for Resins
3.2.15 Test for Steroids and Terpenoids
3.2.16 Test for
Glycoside
3.2.17 Preparation of Reagents for Anti-Inflammatory Test
3.2.18 Test for Anti – Inflammation Activity
3.2.19 Thin layer Chromatorgaphy (TLC)
3.2.20 How to Run A TLC Plate
CHAPTER FOUR
4.0 Extraction
4.1
Photochemical analysis of Crateva Adansonii Bark
Extract
CHAPTER FIVE
5.1 Discussion
5.2 Conclusion
REFERENCES
APPENDIX
CHAPTER ONE
1.0
INTRODUCTION
Inflation is a Latin word (inflammare) which is translated
means to set on fire. It is a complex biological response of vascular tissue to
harmful stimuli such as pathogens, damaged cells irritant. Inflammation is the
reaction of vascularized tissue to local injury caused by certain stimuli like
infections, chemicals and biochemical agents, thermal or other physical trauma,
antigen-antibody interaction etc (Carol, 1994). Without inflammatory response,
wounds will not heal and minor infections would be over weening. Though
inflammation aims at limiting damage and restoring function, some enzymes and
toxic products within phagocytic cells are released to the extend of damaging
the tissue. The advent of anti-inflammatory agents has made inflammation which
as been a threat to human life due to its complex, multicontent, to loose its
power. These anti-inflammatory agents or drugs help reduce, pain by inhibiting
inflammation as opposed to opioids, which affects the central nervous system.
It also prevent repairs, prevent and stop the consequences of inflammation by
acting on the body responses without directly antagonizing the causative agent
(Stedman, 2000). These anti-inflammatory process involves the process of
balancing pro-inflammatory acute-phase reactants (Russell et al. 2000),
altering biochemical pathway
forming prostaglandins by inhibiting cyclooxygenase enzyme
from catalyzing the reaction, as a result, suppress, compensate and correct the
mechanical and structural abnormalities by assistive device. (Masumoto et
al.2009).
The inflammatory reaction is phylogenetically and
ontogenetically the oldest defense mechanism. The cells of immune system are
widely distributed throughout the body, but if an infection or tissue damage
occurs. It is necessary to concentrate them and their products at the site of
damage.
Three
major events occurring during this response:
1.
An increased blood supply to the
damaged tissue . It is performed by vasodilation. The inflamed tissue look like
containing greater number of vessels.
2.
Increased capillary permeability
caused by retraction of the endothelial cells. This permits larger molecules
than usual to escape from the capillaries, and thus allows the soluble
mediators of immunity to reach the site of inflammation.
3.
Leukocytes migrates out of the
capillaries into the surrounding tissues. In the earliest stages of
inflammation, neutrophils are particularly
prevalent,
but later monocytes and lymphocytes migrate towards the site of infection
(Ashcroft et al.1999).
For the possibility of surrounding tissue damage,
inflammatory responses must be well ordered and controlled. The body must be
able to act quickly in some situations, for example to reduce or stop the lost
of blood, whereas tissue repair can begin later. Therefore a wide variety of
interconnected cellular and humoral (soluble) mechanisms are activated when
tissue damage and infections occur. On the other hand, if injury is negligible,
the body must have mechanisms which are able to stop tissue damage when the
agent is removed. The development of inflammatory reactions is controlled by
cytokines, products of plasma enzymes (complement, the coagulation clotting,
kinin and fibrolytic pathways), by lipid mediators (prostaglandin and
leukotrienes) released from different cells/ and by vasoactive mediators from
the mast cells, basophils and platelets. These anti-inflammatory reactions
differ. Fast-acting mediators such as vasoactive amines and the product of the
kininsystem, modulate the immediate response. Later, newly synthesized
mediators such as leukotrienes are involved in the accumulation and activation
of other cells. However, in inflammatory reactions initiated by the immune
system, the ultimate control is exerted by the antigen itself in the same ways
it controls the immune response itself. For this reason, the
cellular accumulation at the site of chronic infection or
auto-immune reactions where antigen cannot ultimately be eradicated, is quiet
different from the sites were antigenic stimulus can be rapidly cleared.
The nervous system can also participate in the control of
inflammation especially axon reflexes, but inflammation may be realized in
non-nervous tissues as well.
Inflammation may become chronic in certain settings where
the acute process characterized by neutrophil infiltration and swelling gives
way to predominance of mononuclear phagocytes and lymphocytes.This probably occurs
to some degree with the normal healing process but becomes exaggerated and
chronic when there’s ineffective elimination of foreign materials as in certain
infections (e.g tuberculosis) or following introduction of foreign bodies
(example asbestos) or deposition of crystals (example urate crystals). Chronic
inflammation is often associated with fussion of mononuclear cells to form
multinucleated gigantic cells, which eventually become granuloma. Chronic
inflammation is seen under of delayed hypersensitivity (Nathan, 2002).
1.2
CRATEVA ADANSONII AS A PLANT.
The flowering tree crateva religiosa (syn crateva
adansonii) is called the sacred garlic pear and temple plant, and many
other names in a variety of dialets, including Balai, lamok, abiyuch, barna,
varuna and bidasi. The tree is sometimes called the spider tree because the
showy flower bear long, spidery stamens. It is native to Japan, Australia, much
of South East Asia and several South east Asia and several South pacific islands.
It is grown elsewhere for fruit especially in part of African continent.
The crateva adansonii plant is a moderate
sized, spreading unarmed, deciduous tree growing to a height of 15 meters. Bark
is grey, the wood yellowish-white turning light brown when old. Leaves are
clustered at the end of the branchlets with a common petiole 5-10 centimeter
long, at the summit of which are three leaflets. Leaflets are ovate-lanceolate
or ovate 7.5-12 centimeter long, 4-6 centimeter wide. Pointed at the base rather
slender pointer at the tip. Flower occur in terminal corymbs, about 5
centimeters in diameter, greenish yellow, and at length purplish.
Petals are ovate or oblong with the claw haft as long as the
limb. Fruit is ovoid or rounded, 3-5 centimeter in diameters, with a hard and
rough rind.
Seeds are about
10 centimeter in
length, numerous kidney-shaped, and
embedded
in a yellow pulp.
1.3
DISTRIBUTION
1.
In waste places, along streams and in thickets near the sea.
2.
Occurs in India, Myanmar, Sri lanka,
Malasia, Indonesia and China. (nature serve. 2011).
3.
Sometimes planted as ornamentals tree for its beautiful
flower.
1.4
SCIENTIFIC CLASSIFICATION
Kingdom: Plantae
Division: Angiosperrrrms
Class: Eudicots
Sub-
class: Rosids
Order: Brassicales
Family: Capparaceae
Genues: Crateva
Species: C.reliigiosa
The constituents of the plant have been assessed overtime
and it has been found in various parts of the plants to contain:
Bark
yield tannin.
Phytochiemicals screening of extract of dried leaves yielded
allcaloids, carbohydrates, tannin, flavonoids, resins, proteins, oils, steroids
and terpenoids.
1.5
PROPERTIES
Generally considered diuretic, anti-inflammatory, laxative,
anti-oxidant, hepatoprotective, antilithics, antirheumatic, antiperiodic,
contraceptive, anthelmintic.
Bark has a
disagreeable smell, the taste slightly bitter, bitting and pungent. Leaves
considered stomachic and tonic.
Roots and bark
considered laxative, lithotriptic and alternative, promoting appetite and
increasing biliary sections.
Leaves
are rubifacient, tonic and febrifugal.
1.6
RESEARCH AIM AND OBJECTIVES
This research aim at investigating the anti-inflammatory
properties of methanol extract of crateva adasonii stem bark. And as
objectives, to compare the therapeutic potential, (i.e. anti-inflammatory
effect ) of the methanol extract of crateva adansonii bark against the
experimental standard indomethacin.
1.7
BACKGROUND OF STUDY
The plant crateva adansonii also known as or also
called sacred garlic pear and temple plant. Apart from its medicinal properties
which allows the plants to be used as laxative, it is also an edible plant
especially the fruits,
berry and young shoot. The plant is used in herbal treatment
of tympanites, convulsion, treatment of fever, rheumatism, urinary calculi etc.
Crateva adansonii is capable of
suppressing the free radicals, production, it is been suggested to have
anti-inflammatory properties which counter the synthesis of inflammatory
mediators thus forming the background of this research.
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