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ADDITIVES AND PRESERVATIVES USED IN FOOD PROCESSING AND PRESERVATION

ADDITIVES AND PRESERVATIVES USED IN FOOD PROCESSING AND PRESERVATION

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ABSTRACT

 

With the increasing use of processed foods since the 19th century, there has been a great increase in the use of food additives of varying levels of safety. This has led to legislation in many countries regulating their use. On the course of the study, the researcher made some objectives; additive and preservative substances as used in processing and preservation of foods and their health implication of foods in preservation and processing industry. Food preservative like curing involves adding some combination of salt, sugar, spices, vinegar, or sodium nitrate to animal foods. The importance of food additives and preservatives are innumerable hence, the quest for more knowledge and awareness through researches should be promoted by the government. Based on the objectives and recommendation above, the researcher concluded that the nutritional value of modern processed and preserved foods is no probably greater than it has even been before and the major food chemical (carbohydrates, fats and proteins) are kept in a fresh palatable and nutritional satisfactory state.

 

 

 

 

TABLE OF CONTENTS

 

CHAPTER ONE

  • Introduction

 

CHAPTER TWO:          LITERATURE REVIEW

  • What are Food Additives and Preservatives

2.1     classifications of food additives and preservatives

  • important of food additives and preservatives
  • Additives, preservatives and their uses
  • Why do we use additives in food and general principles governing their uses
  • Role of some common additives in food
  • Choice and economic consideration of additives
  • Processing and preservation methods
  • Nutritive value of processed food and nutritional losses in food processing
  • Reason for processing food and effect of processing on the food product

CHAPTER THREE

  • Why do we preserve food and factors affecting the choice of a preservation process

3.1     Ways of preserving food

  • Purpose of preservation
  • Needs and benefits of food additives and preservatives; used in food processing and preservations.

CHAPTER FOUR

Recommendation

Conclusion

References


CHAPTER ONE

 

INTRODUCTION

         Additives is “any substance the intended use of which result or may reasonably be expected to result directly or indirectly in its becoming a component or otherwise affecting the characteristics of any food” (United States Government 1981).

Additives is any substance not commonly regarded or used as a food, which is added to or used in or on food at any stage to affect its keeping qualities, odaur, alkalinity or acidity or to serve any other technological function in relation to food (food labeling Regulations 1984).

Additives are a substance or mixture of substances, other than a basic foodstuff, which is present in a food as a result of any aspect of production, processing, storage or packaging (nutrition Board 1959).

Additives is non-nutritive substances added intentionally to food, generally in small quantities, to improved it’s appearance, flavour, texture or storage properties (A report of a joint FAO and WHO Expect committee 156).

Additives are any substance used in or around food that may become a component of the food.

Some are introduced specifically for the purpose of improving the nutritive value, taste, texture, or shelf life of the product; these are intentional additives other enters food as residues after some stage of production or manufacture and are known as incidental additives (introductory Nutrition 1989).

Additives are chemicals that are added to food to improve it in some way. Additives are used to modify colour, flavour and texture; to improve the keeping qualities of food and to make processing easier.

It is used to control moisture and acidity. They are used to improve nutritional value. Thousands of different substances are now used as additives, to some people. The increasing number of additives being used is a cause for concern, if not alarm, and if is important to emphasize that the use f additives is most carefully controlled (Allan G. Cameron 1975).

Need for food additives.

Food additives play or important role in today’s complex food supply.

Never before has the range and choice of foods been so wide either in supermarkets, specialist food shops or when eating out. Whilst a shrinking purporting of the population is engaged in primary food production, consumer are demanding more variety choice and convenience alongside higher.

Standards of safety and wholesomeness at affordable prices.

Meeting these consumer expectations can only be achieved using modern food processing technologies which include the use of a variety of food additives proven effective and safe through long use and rigorous testing (Flowerdew, D. 1999).

How is the safety of food additive evaluated in Europe; All food additive must have a demonstration useful purpose and undergo a rigorous scientific safety evaluation before they can be approved for use.

Until the creation of the European food safety Authority mo (EFSA) 177, the safety evaluation of additives in Europe was done by the scientific committee on food (scf).

At present, it is the EFSA panel on food additives, flavouring, processing, Aids and material in contest with food (AFC panel) who is in charge of this task.

Assessments are based in reviews of all available toxicological date in the humans and animals models. From the available date, the maximum level of additive that has no demonstrable toxic effect is determined. This is called “ no-observed-adverse-effect level” (NOAEL) and is used to determined the “Acceptable Daily intake” (ADI) for each food additive. The ADI provides a large safety margin and is the amount of a food additive that can be consumed daily over a life time without any adverse effect on health (European parliament and council Directive 1988).

Groups of additive according to committee on toxicity:

  • Group A: Additives that the available evidence suggests are acceptable for use in food.
  • Group B: Additives that on the available evidence may be regarded meanwhile as provisionally acceptable for use in food, but about which further information is necessary and which must be reviewed within a specified time.
  • Group C: Additives for which the available evidence suggests probable toxicity and which ought not to be allowed in food without evidence establishing their acceptability.
  • Group D: additives for which the available evidence suggests possible toxicity and which ought not to be allowed in food.
  • Group E: Additives for which the available evidence was inadequate to enable an opinion to be expressed as to their suitability for use in food.
  • Group F: additives for which no information toxicity was available.

Substance that is not on permitted lists must not be used for the preparation, manufacture and distribution of foods for sale to the ultimate consumer. In the case of colours, emulsifiers, stabilizers, solvents and most miscellaneous additives, there are no limitations on amounts used in foods although there are prohibitions of their use in certain classes of foods (Furia 1972).

Preservation is “any substance which is a capable of inhibiting, retarding or arresting the growth of micro-organisms or any deterioration of food due to micro-organisms or masking the evidence of such, micro-organisms are yeast, meld, Bacteria.

The use of preservatives to perseverance food has been a common practice for many centuries e.g. salt, sugar, vinegar; spices have been used in homes, for as long as man has been in existence (Britain food Regulations 1989).

Preservatives are centuries old, since ancient times, salt has been used to cure meats and fish, sugar has been added to fruits to conserve them, Herbs, spices and vinegar have also served as preservatives.

Today’, the U.S food and Drug Administration (FDA) regulates food preservatives, arrested, mistakes have been made, which has resulted in taking some food preservatives off the market.

That is because at the time of approval, prevailing testing methods proved the substance as safe.

As science continued to evolve and testing methods improved, changes were made. Technology has also assisted in the approval process, as it has become more sophisticated over the years as well.

Preservatives are often present in nature but they are in such small quantities, difficult to obtain. To obtain commercially useful amounts of the preservatives synthetic copies of the natural products. Other preservatives are made in the series of chemical reactions. Typically, preservatives attack the enzymes inside the microbes and some can disrupt the microbe’s cell wall so that substances cannot enter, processes kill or seriously slow the growth of food-spoiling microbes.

Probably, the most important use of preservatives from the food safety point of view is in processed meats such as ham, bacon, salami and sausages. Bacteria like clostridium botulinum can produce deadly poisons and the use of preservatives in such products is absolutely essential. For example, most cured and cooked meats contain the preservative. Potassium nitrate (salt petre).

The ability to preserve food in good condition for long periods is an undoubted bon. The amount of food wasted is reduced and the incidence of food poisoning is minimized. A wider range of foods is available including foods “out of season” and foods from overseas that could not be transported and stocked in former times.

The widespread use of preservatives, refrigerators, ‘deep freezer’ equipment and canned and dehydrated food has made it easy for the…

 

 

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INNATE/NATURAL IMMUNITY TO MALARIA IN SOME INHERITED ABNORMALITIES

INNATE/NATURAL IMMUNITY TO MALARIA IN SOME INHERITED ABNORMALITIES

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CHAPTER ONE

1.0    INTRODUCTION                                                           1

1.2    WHAT NATURAL IMMUNITY MEANS                           2

1.3    NATURAL IMMUNITY AS IT CONCERNS MALARIA     4

 

CHAPTER TWO

IMPORTANT INFORMATIONS ABOUT MALARIA              5

2.1    MALARIA PARASITES

2.2    MORPHOLOGY AND LIFE CYCLE                                5

2.3    VECTOR AND MODE OF TRANSMISSION

OF MALARIA                                                                 8

2.4    CLINICAL SYMPTOMS OF MALARIA                            8

2.5    LABORATORY DIAGNOSIS OF MALARIA                    11

 

CHAPTER THREE

GENETIC CONDITIONS LEADING TO NATURAL

RESISTANCE TO MALARIA                                                13

3.1    DUFFY ANTIGEN NULL                                                13

3.2    SICKLE-CELL ANEMIA                                                 14

3.3    DIAGNOSIS OF SICKLE CELL ANAEMIA

AND THALASSEMIA                                                     17

3.4    HOW ABNORMAL HEMOGLOBINS (HbS) CAUSE RESISTANCE TO MALARIA IN BOTH AS AND SS

INDIVIDUALS                                                               18

3.5    WHY SS INDIVIDUALS RESIST MALARIA                    20

3.6    THALASSAEMIA                                                            21

3.7    HOW BOTH ALPHA AND BETA-THALASSEMIA

LEAD TO NON SPECIFIC IMMUNITY TO MALARIA     23

3.8    GLUCOSE-6-PHOSPHATE DEHYDROGENASE

(G6PD) DIFFICIENCY AND MALARIA RESISTANCE    25

 

CHAPTER FOUR

INFIRMITIES ASSOCIATED WITH MALARIA

RESISTANT GENES                                                             28

4.1    SICKLE CELL DISEASE (sickle cell anemia)                28

4.2    THALASSAEMIA INFIRMITIES                                     30

 

CHAPTER FIVE

CONCLUSION                                                                        31

 

REFERENCES                                                                       33

 

 

 

ABSTRACT

 

Host resistance or host immunity in malaria is of two types (1) Innate immunity and (2) Acquired immunity. (This seminar presentation teaches that of the innate immunity to malaria). This refers to inherent, non-immune mechanisms of host defence against malaria. This is due to nature of hemoglobin, age of red blood cells, deficiency in certain red cell enzymes and presence or absence of certain factors. Presence of abnormal hemoglobin like thalassemia hemoglobin and foetal hemoglobin confers resistance against all plasmodium spp, while sickle cell anemia trait and hemoglobin E protect against P. falciparium and P. vivax malaria respectively.

The presence of duffy factor increases the susceptibility to malaria while its absence leads to host protection against malaria. A genetic deficiency known as glucose-6-phosphate dehydrogenase (G6PD) trait confers some protection against P. falciparium infection. This enzymes is essential for respiratory process of the malaria parasite. Considering ages of red blood cells, young red cell resist malaria caused by P. malariae, old erythrocytes resists malaria caused by P. vivax and P. ovale while Plasmodium falciparium infects red blood cell of ages (ie. both young and old erythrocytes).

 

 

 

 

 

 

CHAPTER ONE

 

INTRODUCTION

Malaria is a life threatening disease mostly in Africa and few other regions where it is endemic like South East Asia, Eastern Mediterranean, India and Middle East.

This seminar write up considers those individuals living in areas where malaria is endemic that do not suffer from malaria or that resist malaria attack, even though they are exposed to infected mosquito bites. They don’t take any special measure or drug to avoid malaria attack. They show positive result to malaria test without any clinical disease or symptoms for a very long period of time. The malaria parasites may be present in red blood cells without any pathogenicity. These individuals are naturally endowed with malaria resistance genes. This type of resistance is genetical and not acquire, hence it is a function of the individuals natural/innate immune system.

In most cases natural immunity to malaria is due to abnormal inherited gene(s) either from the both parents or one parent. In the other hand, these abnormal genes may result to serious genetic diseases that are equally life threatening. Resistance to malaria is achieved through some of the red cell defense against malaria parasite that has arisen by natural selection due to mutation. Innate immunity to malaria is not a function of produced antibodies against the different forms of the developmental stages of the malaria parasite in human host. Rather, the production of antibodies is a function of acquired immunity.

 

1.2   WHAT NATURAL IMMUNITY MEANS

Natural or innate immunity refers to those general mechanisms inherited as part of the innate structure and functions of each animal that offer protection and defence against infectious micro-organisms.

According to American Hentage Medical Dictionary, innate immunity is an immunity that occurs naturally as a result of a person’s genetic constitution or physiology and does not arise from exposure to infection or vaccination. This type of immunity can also be called genetic immunity or non-specific immunity.

This type of immunity are not usually induced by any agent and do not require previous sensitization but are controlled naturally by the genes.

The defence mechanism provided by some physical barriers (eg. skin, mucous membrane) chemical barriers (eg. Interferons, complement, enzymatic action), biological barriers (eg. phagocytosis, inflammation) are all part of innate immunity. It is quite interesting to know that some genetic abnormalities provide natural protection against some diseases and also provide evolutionary advantages.

 

 

1.3   NATURAL IMMUNITY AS IT CONCERNS MALARIA

Malaria parasites lives insides the red blood cells and destroys the red cells during development. Red cell defenses against malaria arises from genetic alteration in the normal red cell components and functions. Such alterations are as follows

  1. Sickle cell anemia resulting form abnormal hemoglobin (HbS)
  2. Thalassaemia
  3. Deficiency in red cell enzymes such as glucose-6-phosphate dehydrogenase (G6PD) deficiency
  4. Duffy antigens null etc.

Ochei J. et al (2007) stated that it has been observed that individuals

 

 

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PROXIMATE ANALYSIS ON OVEN DRIED ONION (ALLIUM CEPA)

PROXIMATE ANALYSIS ON OVEN DRIED ONION
(ALLIUM CEPA)

 

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ABSTRACT

Onions powder (Allium cepa) was produced using oven drying method. The product was dried at the temperature of 1000C. During drying, there was a lot of onion flavour coming out from the oven. After drying, the proximate analysis was carried out. The analysis carried out showed that the moistures content was 45%, the fat content was 3.55%, the ash content was 0.15% and the protein content was 0.35%.

 

 

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TABLE OF CONTENTS

CHAPTER ONE
1.0 INTRODUCTION 1
1.1 Aims and Objectives 3

CHAPTER TWO
2.0 LITERATURE REVIEW ON ONION 4
2.1 Origin and Cultivation of Onion 4
2.2 Varieties of Onion 7
2.3 Natural Benefits and Curative Properties of Onion 11
2.4 Nutritional Value, Description and it’s
Chemical Composition 14
2.5 Onion Post Harvest Loss Control,
Storage and Factor which Influence the
Storage Ability of Onion 19

CHAPTER THREE
3.0 MATERIAL AND METHODS 25
3.1 Raw Material 25
3.2 Sources of Raw Material 25
3.3 Preparation of Onion Powder 25
3.4 Equipment 27
3.5 Proximate Analysis 27

CHAPTER FOUR
4.0 RESULT 34
4.1 Discussion 34

CHAPTER FIVE
5.0 Conclusion 36
5.1 Recommendations 36

References 37
Appendix 39

CHAPTER ONE

1.0 INTRODUCTION
Onion (Allium cepa), one of the oldest vegetable known to mankind. Onions is the most widely used as a seasoning in the world, is a root vegetable used as a seasoning in fresh and dry forms. The underground bulb is known for its distinct/pungent flavors and aroma. They are nowadays available in fresh, frozen, pickled and dehydrated forms. Onion can be used usually chopped or slices in almost very type of foods, including cooked food and fresh salads and as a spices garnish, they are rarely eaten on their own but usually acts as accompaniment to the main course. Depending on the variety, an onion can be sharp, spicy, tangy and pungent or mild sweet.
Onions (Allium cepa) which belong to bulbs family whose flavours come from sulphur compound are activated by the enzyme allinase.
The sweet tasted in cooked onions is due to the reaction of heat on suplhur compound. Onion contains thio-pronanal oxide which produced a weak sulphurous acid that cause pains in the eyes, thus producing tears (Ihekoronye and Ngoddy, 1985).
Onion acts as antioxidant as well as anti-carcinogen. It is used as part of spices mixed for steaming of meat and it has a delightful taste and fresh aroma.
Onion are taken as part of daily meals, it help in clothing of platelet blood in the body and reduce high levels of sugar in the blood.

SOME OF THE SEVERAL SPICES IN THE GENUS ARE:
Allium cepa – Onions
Allium satium – Garlic
Allium ursinium – Wild onion
Allium tuberiosom – Garlic chives
Allium schoene prasum – Chives
Allium angnetrum – Three

 

 

 

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THE SURVEY OF THE MICROBIAL FLOAR OF COMMON (Achatina achatina) IN VIEW OF IDENTIFYING THE HUMAN PATHOGENIC ORGANISMS IN SNAIL

THE SURVEY OF THE MICROBIAL FLOAR OF COMMON (Achatina achatina) IN VIEW OF IDENTIFYING THE HUMAN PATHOGENIC ORGANISMS IN SNAIL

 

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ABSTRACT
The giant land edible snail (Achatina achatina) used for this project exercise was collected from various locations of Enugu urban. Also the head = foot, visceral mass and the sluing fluid of the snail were collected freely and were plated separately in 5 different microbial media with the view of determining their microbial load. The isolates were identified by morphological and biochemical tell.
The colony appearance of the test organisms were observed per ml of dilution. The specific organisms isolated include the following: E Coli, Salmonella Spp, Shigella Spp, Proteus Spp and Pseudomenas Spp.

 

 

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TABLE OF CONTENTS
CHAPTER ONE
Introduction 1
1.1 Background Information 1
1.2 Aim and Objectives 5
1.3 Statement Of Problems 5
1.4 Signs and Symptoms 6
1.5 Description 6
1.6 Hypothesis 8
1.7 Justification 8
1.8 Limitations 9

CHAPTER TWO
Literature Review 10

CHAPTER THREE
Materials and Methods 25
3.1 Method 26
3.2 Preparation of Samples 27

CHAPTER FOUR
Result 32

CHAPTER FIVE
Discussion and Conclusion 40
5.1 Discussion 40
5.2 Conclusion 41
Reference 42

 

 

CHAPTER ONE

1.0 BACKGROUND INFORMATION
The common land edible snail Achatina achatina originated from the Northern West Africa, Liberia to Nigeria. It is often sold under the name Giant Ghana tiger snail, referring to its colour and origin. The species is one of the biggest creatures among other land snails, according to (Rebecca T. et al 1996). The shell of the common land edible snail Achatina achatina should be able to reach a shell length of 30cm, but this is very seldom. Normally one can expect a shell length of 15 – 20cm, which is quite by too. The above length could also be enough to be emerged.

The shell is more or less stripped in yellow and blackish brown. The pattern and partly the colour can vary a lot, even for snails from the same batch of eggs. Often the strips will look more like long unever patch as, the point of the shell is usually much paler than the rest of the shell. The body is usually grayish to dark grayish with 2 lighter stripes along the top of the body and light patches on the side of the body.

The common land edible snail Achatina achatina deposit batches of eggs in the ground. The eggs are small about 5 minutes spherical and whitish. The number of eggs can vary a lot, but normally there will be from 200 to 500 eggs in at batch. A good reason to check up on your snails form time to time is to get rid of the eggs you don’t want to hatch. In the snails homeland, the natures eats the snails, which they collect in the snails natural habitat. The meat is nutritious and tasty.
Here in Nigeria especially, the giant edible land snail serve as a good delicacy. It is very rich in protein and as well as other nutrient values in Nigeria.

This snail Achatina achatina is normally referred to as the “giant among giants”. Since it is believed to be the largest living terrestrial menllusc (Hodasi, 1984) and used in Nigeria as a source of protein and iron. Various animal species have been known to be frequent carriers of human pathogens, since it is so, the giant land edible. Snail Achatina achatina in Nigeria is not left out (Obi S.K.C et al 1980), such pathogens are thus:- Salmonella species, Shigella species, and Proteus species have been located from Achatina achatina. (Obi S.K.C et al, 1980).

All these pathogenic organisms are known to have caused food borne infections in man, they have also known to have enormous significance in bacillary dysentery and these organisms, from recent studies have demonstrated the inrelvement of these organisms in human diseases (Sanyal et al 1975). He common l and edible snail Achatina achatina is a hamaphrodite, but generally cross fertilization takes place.

Though it is true that snails are always subjected to cooking process prior to consumption but since some communities, to additional cooking practices may net guarantee the total destruction of these pathogens, the danger of causing infection in occurs and still remain there. Apart from infections from inadequately processed meat, there is also the added risk of cross contamination of other foods and utensils as well as the danger of self contamination during processing and handling the meat as a result of poor hygienic practices.

Due to the ignorance of hygienic practices in food processing and handling. (Through the handlers), the danger of infections in man by these pathogenic organisms associated with the edible land. Snails Achatina achatina has been increased. The reported use of untreated crude extracts on patients by the traditional healers in Nigeria adds a new dimension to the risk (Obi S.K.C et al, 1980).
Again, the increased in demand for animal proteins have generated more interest in snail farming in southern Nigeria. Snail farming or larger – scale basis requires a considerable investment in time, equipment, and resources.

Prospective snail farmers in Nigeria should carefully consider the above factors especially if their goal is to supply large quantities to commercial business.

Anyone who wishes to raise snails should expect to experiment unit he finds what works best in his specific condition. Since the demand of snail for animal protein is highly increasing in Nigeria, therefore, that is why the above factors should be considered by the snail farmers as to enable them meat up with the demand of he average Nigerian in snails.
Although, it is true that much is not known about the contact of diseases from snails, hence this project exercise which is aimed at…

 

 

 

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Gastroenteritis In Primary School Children In Enugu Metropolis (6-12 Yrs)

Gastroenteritis In Primary School Children In Enugu Metropolis (6-12 Yrs)

 

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ABSTRACT

A total of fifty faecal samples were collected form pupils in airport primary school Emene Enugu were used for the study. The duration of the investigation was between February August 2005. These samples were cultured and their causative organisms determined using macconkey agar, deocycholate citrate agar and an alkaline peptone water which was preparect according to manufacturers instruction .
The species of organisms isolated include; escherichia coil 8 (29 %) Klebsiella 5 (18%) Pseudomonas auroginosa 4 (14 %) shigella 3 (11%) proteus 2 (7%) staphylococcus SPP 2 (7%) respectively. These organism have a lot of health implication associated with gastroenteritis.

Gastroenteritis In Primary School Children In Enugu Metropolis (6-12 Yrs)

 

LIST OF TABLE

Table 1
Number of organism isolated with their percentage from school children
Table ii
Biochemical test for the identification of the bacterial isolates. (prescott et al 2005)
Table III
Pie chart representation of the organisms isolated form school children
Table IV
Histogram representation of the organisms isolated form school children

Gastroenteritis In Primary School Children In Enugu Metropolis (6-12 Yrs)

 

 

TABLE OF CONTENT

1.0 CHAPTER ONE INTRODUUCTION
1.1 Aims and objectives
1.2 Statement of problem
1.3 Hypothesis
1.4 Scope/ limitations of study

2.0 CHAPTER TWO LITERATURE REVIEW
2.1 Environmental factor
2.2 Bacterial diseases of the lower alimentary system
2.3 Sources of infection

3.0 CHAPTER THREE MATERIALS AND METHODS
3.1 material
3.2 Method
3.3 Method of culture
3.4 Plate reading
3.5 Biochemical reaction

CHAPTER FOUR RESULT
CHAPTER FIVE – Discussion and conclusion
CHAPTER SIX
Reference
Appendices

 

 

CHAPTER ONE

INTRODUCTION

Gastroenteritis is a disease condition due to the inflammation of the mucous of the stomach and intestine. Many microorganisms contaminating food and water can cause acute gastroenteritis. In most cases it runs its own course over several days. However it can be a serious condition if the fluid loss is sever enough to cause dehydration. When food is the source of the pathogen the condition is often called food poisoning (Archeson 200)

Gastroenteritis can arise in two ways the microorganisms may actually produce a food borne infection, that is, they may first colonize the gastrointestinal tract and grow within it, then either invade host tissues or secrete exo- toxins (Johnson, 1999).
Alternatively the pathogens may secrete an exo- toxins that contaminates the food and is ingested by the host. This is some times reffered to as food intoxication because the toxins ingested and the presence of the living microorganisms is not required. Because theses toxins of the disrupt the functioning of intestinal mucosa they are called enterotoxins (Sanders and sanders 1997)

Most cases of gastroenteritis are due to viral infection about a half are caused by the rotavirus, first discovered and described at the royal children’s Hospital university of Melbourne in the early 1970 various other virus may cause the same symptoms as well as bacteria like campylobacter protozoa and helminthes. In most cases the precise infective agent is not identified. It is only when symptoms are persisting that stools are sent for microscopy and culture in the laboratory (Nachamkin 1992).

On a global scale gastroenteritis is a massive health problem. About 5 million people die each year, mainly young children in underdevloped countries most deaths are due to dehgdration, in adequate fluid replacement and cirulatory collapse. In Australia, Asia, African and South America an occasional fatality still occurs with gastroenteritis again mainly due to complication of sever dehydration A rotavirus vaccine has been developed in Australia and may eventually have extensive world wide application (Prescott et al 2005).

The main symptoms of gastroenteritis are vomiting diarliea and cramping abdominal pain. Sometimes of fever may also be present. In more severe cases, signs of dehydration may appear a young child may look floppy and pale and the urine out put may be reduced. these signs means that urgent medical assessments

Gastroenteritis In Primary School Children In Enugu Metropolis (6-12 Yrs)

 

 

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