Assessment of micronutrients in children with malaria infection

 

Table Of Contents


Chapter ONE

INTRODUCTION

  • 1.1Introduction
  • 1.2Background of Study
  • 1.3Problem Statement
  • 1.4Objective of Study
  • 1.5Limitation of Study
  • 1.6Scope of Study
  • 1.7Significance of Study
  • 1.8Structure of the Research
  • 1.9Definition of Terms

Chapter TWO

LITERATURE REVIEW

  • 2.1Overview of Micronutrients
  • 2.2Relationship Between Micronutrients and Malaria
  • 2.3Importance of Micronutrients in Children
  • 2.4Micronutrient Deficiencies in Developing Countries
  • 2.5Impact of Malaria on Micronutrient Levels
  • 2.6Interventions for Micronutrient Deficiencies
  • 2.7Studies on Micronutrients and Malaria
  • 2.8Role of Nutrition in Malaria Treatment
  • 2.9Global Efforts to Address Micronutrient Deficiencies
  • 2.10Future Directions in Micronutrient Research

Chapter THREE

SYSTEM DESIGN AND IMPLEMENTATION

  • 3.1Research Design
  • 3.2Sampling Techniques
  • 3.3Data Collection Methods
  • 3.4Data Analysis Procedures
  • 3.5Ethical Considerations
  • 3.6Research Instruments
  • 3.7Validity and Reliability
  • 3.8Limitations of the Research Methodology

Chapter FOUR

SYSTEM TESTING AND EVALUATION

  • 4.1Overview of Findings
  • 4.2Micronutrient Levels in Children with Malaria
  • 4.3Factors Influencing Micronutrient Status
  • 4.4Comparison with Healthy Children
  • 4.5Implications for Treatment
  • 4.6Recommendations for Policy and Practice
  • 4.7Areas for Further Research
  • 4.8Conclusions from the Findings

Chapter FIVE

SUMMARY, CONCLUSION AND RECOMMENDATIONS

  • 5.1Summary of Research
  • 5.2Key Findings Recap
  • 5.3Implications for Healthcare
  • 5.4Contribution to Existing Knowledge
  • 5.5Recommendations for Future Studies
  • 5.6Conclusion and Closing Remarks

Project Abstract

<p> The increased clinical state of malaria infection may be due to poor nutritional status most especially as a result of micronutrients deficiency. Micronutrients play vital role both in combating anaemia and other adverse effects of malaria infection in humans and animals in developing resistance against the disease. This research was aimed at establishing the effect of malaria parasite on neutrophil-lymphocyte ratio, platelet-lymphocyte ratio and some essential plasma electrolytes (calcium, magnesium and iron) as well as vitamins (vitamin B12 and folate) of children. Ethical approval was gotten from ministry of Health, Benin City, Edo State. Test group was recruited from the paediatric ward of Central Hospital, Benin City. A questionnaire, written in English was administered to the parents of the subjects to fill. An informed consent was given to the parents or guardian of the children before sample was collected Blood sample was collected from two hundred (n = 200) children within the ages of l – 10 years as test group who are positive for malaria parasites while the control group were one hundred (100) children abovel0yrs of age who do not have malaria parasites. Thick blood film was used to ascertain the level of parasitaemia using giemsa stain, vitamin B12 was done using electroluminescence technique, folic acid was analysis was done using ELISA technique, while iron, magnesium and calcium was spectrophotometrically analyzed. Results gotten in this research shows that PCV decreased significantly compared to the control group, (p&lt;0.05). White blood cell increased (p&lt;0.05) compared to the control, Plasma calcium, magnesium and iron decreasedsignificantly; there was decrease in folate and vitamin B12. Micronutrients are not only necessary in the regeneration of heamolyzed red cells during malaria infection, but also served as antioxidants hence protecting the red cells against damage by malaria toxins. It is therefore of tremendous importance to assess micronutrients status of children with malaria. <br></p>

Project Overview

<p> </p><p><strong>INTRODUCTION</strong></p><p><strong>1.1 &nbsp; &nbsp; Background of Study</strong></p><p>Malaria is a prevalent disease in tropical and subtropical areas of Africa. It is estimated that 1-3 million deaths occurs worldwide, mostly involving children under the age of 5years (Gouado <em>et al</em>., 2007). Malaria is a major public health challenge in Nigeria and it accounts for more cases and deaths than any other country in the world (Olasehinde <em>et al</em>., 2010). This disease is often linked to changes in climate, poverty, malnutrition and the double resistance of the malaria parasite to usual anti-malaria drugs and insecticides (Müller and Garenne, 1999). Infection by malaria can cause serious health problems and this often leads to death especially in children (Gouado <em>et al</em>., 2007). The disease is caused by malaria parasites (Plasmodium species) which are transmitted by the female anopheles mosquito (vector).There are today more than 25 named <em>plasmodium species</em>&nbsp;which infect primates. Four of the species are human parasites; <em>P. falciparum, P. vivax, P. malaria and P. ovale </em>(Trampuz <em>et al</em>., 2003). Epidemiological studies have demonstrated that <em>P. falciparum </em>is the most dangerous specie as it is responsible for most of the deaths caused by malaria (Greenwood <em>et al</em>., 2005). The malaria parasite is transmitted when an individual is bitten by infected female anopheles mosquito (Ochei and Kolhatkar, 2008). The main symptom of uncomplicated malaria in children is fever. Older children may present with headache, backache, chills, myalgia and fatigue (Olasehinde <em>et al</em>., 2010). Severe anaemia may exist alone or in combination with other complications particularly cerebral malaria and respiratory distress in which it portends worse prognosis (WHO, 2004). Consequences of severe malaria include coma and death if untreated, young children are especially vulnerable (Anemana <em>et al</em>., 2004). Laboratory diagnosis of malaria could be made by detection of parasite in blood] or by serological techniques (Ochei and Kolhatkar, 2008).</p><p>Micronutrients are trace elements that are required in small quantities to ensure normal metabolism, growth and physical well‐being. Some studies relating micronutrient status and malaria infection reported low plasma levels of certain micronutrient in acute malaria infection (Alonso, 2004). Iron and beta carotene which are reported to have modulatory effect on the pathogenesis of malaria, have been observed to be deficient in acute <em>plasmodium falciparum </em>infection (Lavender, 1993; Shankar and Prasad 1998;; Beard, 2001; Caulfield <em>et al.</em>, 2004). The levels of micronutrients in children are of particular interest since adequate intake is of great importance for the well being, proper development, and functioning of the body starting from fetal life and throughout childhood. Micronutrients comprise of vitamins and minerals. Examples of vitamins are vitamin A, pro-vitamin A (Beta‐carotene), vitamin B1, vitamin B2, vitamin B6, vitamin B12, biotin, vitamin C, vitamin E, vitamin D, vitamin K ,folic acid, niacin and pantothenic acid while minerals include the trace elements such as iron, copper, iodine, manganese, selenium and zinc together with the macro elements calcium, magnesium, potassium and sodium (Asaolu and Igbaakin, 2009; Crook, 2012). Micronutrients have been implicated to play important roles in immunity and physiologic functions. For instance, Calcium is an important nutrient that plays a major role in bone and teeth formation, impulse transmission, catalytic activation among others (Nordin, 1997). Iron plays an important role in the production of heamoglobin, oxygenation of red blood cells and lymphocytes. It improves the function of enzymes in protein metabolism and enhances the function of calcium and copper (Asaolu and Igbaakin, 2009). Vitamin B12 is involved in the maturation of red blood cells. The folic acid coenzymes are specifically concerned with metabolic reactions involving the transfer and utilization of the one carbon moiety &nbsp; &nbsp; &nbsp;(Crook, 2012). Micronutrients are found in small quantities within the body and they are obtained from a wide variety of foods. &nbsp;No single food contains all of the micronutrients we need and, therefore, a balanced and varied diet is necessary for an adequate intake. Micronutrients deficiency is more frequent amongst children in developing countries (Gibson and Ferguson, 1998). These deficiencies may contribute to an increased risk of parasitic infection such as malaria (Mahomed, 2000).</p><p><strong>1.2 &nbsp; &nbsp; Justification of Study</strong></p><p>Malaria has been a major challenge to the world’s population especially in Africa and indeed Nigeria. It has been implicated in increased rate of morbidity and mortality among children (Sachs and Malaney, 2002). &nbsp;Research has shown that malaria causes 0.5 – 3.0 million deaths each year and that 75% of these deaths occur in African children under the age of 5years (Greenwood <em>et al</em>., 2005).The increased clinical state of malaria infection may be due to poor nutritional status more especially as a result of micronutrients deficiency (Gouado <em>et al</em>., 2007). Micronutrients play vital role both in combating anaemia and other adverse effects of malaria infection in humans and animals in developing resistance against the disease. Micronutrients are not only necessary in the regeneration of heamolyzed red cells during malaria infection, but also served as antioxidants hence protecting the red cells against damage by malaria toxins (Jain, 2006). It is therefore of tremendous importance to assess micronutrients status of children with malaria.</p><p><strong>1.3 &nbsp; &nbsp; Aim of Study</strong></p><p>The aim of this study is to assess the levels of micronutrients in children with malaria infection in Paediatric Ward, Central Hospital, Benin city.</p><p><strong>1.4 &nbsp; &nbsp; Specific Objective</strong></p><p>1. &nbsp; &nbsp; To evaluate the levels of vitamin B­­12,folic acid, iron, magnesium, and calcium in malaria infected children.</p><p>2. &nbsp; &nbsp; To correlate the micronutrient levels with the severity of malaria infection.</p><p>3. &nbsp; &nbsp; and to compare the results with &nbsp;the control group &nbsp;(non-infected children).</p><p><strong>1.5 &nbsp; &nbsp; Research Design</strong></p><p>This is a case study designed to assess micronutrients status of malaria infected children and then compare findings with non-infected children in Benin City.</p><p><strong>1.6 &nbsp; &nbsp; Ethical consideration</strong></p><p>Ethical approval was sought and approved by the ethical committee of Central Hospital, Benin City, Edo State.</p><p><strong>1.7 &nbsp; &nbsp; Research Hypothesis</strong></p><p><strong>H</strong><strong>1</strong><strong>:</strong>malaria parasites affects calcium, magnesium, iron ,vitamin B12,folic acid in children infected with malaria.</p><p><strong>H</strong><strong>0</strong>&nbsp;malaria parasites does not affect calcium, magnesium, iron ,vitamin B12,folic acid in children infected with malaria.</p><p><strong>1.8 &nbsp; &nbsp; Questionnaire/informed consent</strong></p><p>A questionnaire, written in English was administered to the parents of the subjects to fill. An informed consent was given to the parents or guardian of the children before sample was collected.</p><p><strong>1.9 &nbsp; &nbsp; Sample size</strong></p><p>The sample size (N) was calculated &nbsp;using prevalence from previous studies</p><p>The sample (Olasehinde <em>et al</em>., 2010). size for this study will be obtained using the formula described by Dean <em>et al.,</em>&nbsp;(1995).</p><p>N &nbsp; &nbsp; &nbsp; = &nbsp; &nbsp; &nbsp; Z2P (1 – P)</p><p>D2</p><p>N &nbsp; &nbsp; &nbsp; = &nbsp; &nbsp; &nbsp; required sample size</p><p>Z &nbsp; &nbsp; &nbsp; = &nbsp; &nbsp; &nbsp; confidence level at 95% (standard value of 1.96)</p><p>P &nbsp; &nbsp; &nbsp; = &nbsp; &nbsp; &nbsp; estimated prevalence of intestinal parasites of pupils (84.7%)</p><p>D &nbsp; &nbsp; &nbsp; = &nbsp; &nbsp; &nbsp; margin of error at 5% (standard value = 0.05)</p><p>N=1.962 X 0.847(1-0.847)</p><p>0.052</p><p>3.8416 X 0.847(0.153)<br>___________________</p><p>0.0025</p><p>N=199 minimum sample sizes</p><p>Therefore a minimum of 200 test samples and 100 control will be used for this research.</p> <br><p></p>

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