EXAMINATION OF INCIDENCE OF MALARIA WEFESTATION CAUSED BY DIFFERNET SPECIES OF PLASMODIUM IN ENUGU METROPOLIC (A CASE STUDY OF PARKLANE HOSPITAL ENUGU)

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EXAMINATION OF INCIDENCE OF MALARIA WEFESTATION CAUSED BY DIFFERNET SPECIES OF PLASMODIUM IN ENUGU METROPOLIC(A CASE STUDY OF PARKLANE HOSPITAL ENUGU)

 

ABSTRACT

          The incidence of the infestation of plasmodium species (P.Falciparum, P. Vivax,  P.Ovale, and P. alaria) which causes human malaria in Enugu metropolis was conducted at Parklane Hospital using their patients.  Thick and thin, smear of blood were made and examined after proper staining.  The staining method which proved effective were the Giemsa and Liesman staining method.  It was observed that P.Falciparum was most prevalent of the fair species while P.Ovale has occuarence.  The report  P.Ovale were not significant to be recorded.  Prevalent is higher in children than in Adult.

TABLE OF COSNTENTS

 

Title page                                                                               

Certification

Dedication

Acknowledgement

Abstract

Table of contents

 

CHAPTER ONE

1.0     Introduction

1.1     Aim and Objective

1.2            Statement of problem

1.3           Hypothesis

1.4           Justification

1.5           Limitation of the study

1.6           Scope of the study

 

CHAPTER TWO

2.0            Literature review

2.1     The parasite

2.2            Plasmodium species and their distributions

2.3            Clinical features and pathology of the species

2.4            The transmission Dynamics/Life cycle

2.5            Differences in Plasmodium species

 

CHAPTER THREE

          Material  and method

3.0            Materials

3.1     Procurement of sample

3.2            Stock solution

3.3            Technique of staining thick films using Giensa stain

3.4            Technique of stain of thin film using Leisman stain

 

CHAPTER FOUR

4.0            Results and data collection

4.1     Results

4.2            Comparism of incidence of malaria

4.3            Data Analysis

 

CHAPTER FIVE

5.0            Discussion, Recommendation and Conclusion

5.1     Discussion

5.2            Recommendation

5.3           References

 

LIST OF TABLE

Pages

Table 1:      Differences in plasmodium species                      29

 

Table 2:      Age distribution of target population                            35

 

Table 3:      Sex distribution of the incidence of malaria

on the first day                                                     35

 

Table 4:      Comparison of the incidence of malaria by

species of plasmodium                                        36

 

Table 5:      Sex distribution of the incidence of malaria

on the second day                                                36

 

LIST OF FIGURES

 

Figure 1:     The life cycle of malaria parasite                          3

 

Figure 2:     Diagram of thick and thin film                                       27

 

Figure 3:     The Gametocyte of P. Vicax and  P.Ovale           31

 

Figure 4:     The trophozoite of P. Vivax and P. Ovale           32

 

Figure 5;     The trophozoite of P. Malaria and P falaparum   33

 

Figure 6:     The Gametocyte of P. malaria and P falciparum  34

 

Figure 7:     Graph showing incidence of malaria By species

of plasmodium on the first day using table one  37

 

Figure 8:     Barchart showing incidenced of malaria by

species of Plasmodium on the first day using

table one                                                              38

Figure 9:     Sex distribution of the incidence of malaria

on the first day using table 2                               39

Figure 10:   Graph showing the incidence of malaria on the

second day using table 3                                               40

 

 

CHAPTER ONE

1.0            THE BACKGROUND INFORMATION

 

Malaria is a febrile illness caused by a protozoan of the germs plasmodium present public health problem and cause suffering and premature death in tropical and subtropical countries, because of htier ample rainfall; and long periods, of warmth which favour both mosquito breeding and human infection (Adams and Magraitt 1980,),

In many endemic area, malaria increases and difficult to control because of the resistance of the parasite to antimalaria drings and the failure of vector control measures: At present, about two billion population live in malarious zone.  Every year, 200-300 million people are due to the disease.  Most of the victims are children under five (5) and pregnant women in areas  of stable malaria (intence malaria) transmission.  Malaria also poses a risk to travellers, tarists and immigrants and exotic cases of malaria are

There are four species of  Plasmodium  which infects humans.  although infection is generally cases occur in the USA and other countries which are otherwise free of malaria transmission.  Falciparum,  and Plasmodium  vivaz,which are found throughout malaria belt. Plasmodium malaria is widely distributed but less common  Plasmodium Ovale is rare but it tends to replace P. Viax in west Africa where it has been linked with Lack of Duffy blood group by (John Murray, 1880).

 

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