Serum sodium concentration in sickle cell patient

 

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 Serum Sodium Concentration
  • 2.2Sickle Cell Disease: An Introduction
  • 2.3Relationship Between Sickle Cell Disease and Serum Sodium Concentration
  • 2.4Previous Studies on Serum Sodium Concentration in Sickle Cell Patients
  • 2.5Factors Affecting Serum Sodium Concentration
  • 2.6Importance of Monitoring Serum Sodium Concentration in Sickle Cell Patients
  • 2.7Effects of Abnormal Serum Sodium Levels in Sickle Cell Patients
  • 2.8Treatment and Management of Abnormal Serum Sodium Levels in Sickle Cell Patients
  • 2.9Technologies for Measuring Serum Sodium Concentration
  • 2.10Future Research Directions in Studying Serum Sodium Concentration in Sickle Cell Patients

Chapter THREE

RESEARCH METHODOLOGY

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

Chapter FOUR

DATA PRESENTATION AND ANALYSIS

  • 4.1Overview of Findings
  • 4.2Analysis of Serum Sodium Concentration Levels in Sickle Cell Patients
  • 4.3Relationship Between Serum Sodium Concentration and Disease Severity
  • 4.4Comparison of Serum Sodium Levels in Different Sickle Cell Genotypes
  • 4.5Impact of Treatment on Serum Sodium Concentration
  • 4.6Factors Influencing Variability in Serum Sodium Levels
  • 4.7Discussion on Clinical Implications of Findings
  • 4.8Future Research Directions Based on Findings

Chapter FIVE

SUMMARY, CONCLUSION AND RECOMMENDATIONS

  • 5.1Summary of Findings
  • 5.2Conclusion
  • 5.3Recommendations for Clinical Practice
  • 5.4Contributions to the Field
  • 5.5Implications for Future Research

Project Abstract

<p> </p><p>Sickle cell disease (SCD) is a group of inherited disorders of the beta-hemoglobin chain. Normal hemoglobin has 3 different types of hemoglobin – hemoglobin A, A2, and F. Hemoglobin S in sickle cell disease contains an abnormal beta globin chain encoded by a substitution of valine for glutamic acid on chromosome 11 (Bunn,2007). This is an autosomal recessive disorder. Sickle cell disease refers to a specific genotype in which a person inherits one copy of the HbS gene and another gene coding for a qualitatively or quantitatively abnormal beta globin chain. Sickle cell anemia (HbSS) refers to patients who are homozygous for the HbS gene, while heterozygous forms may pair HbS with genes coding for other types of abnormal hemoglobin such as hemoglobin C, an autosomal recessive mutation which substitutes lysine for glutamic acid. In addition, persons can inherit a combination of HbS and β-thalassemia. The β-thalassemias represent an autosomal recessive disorder with reduced production or absence of β-globin chains resulting in anemia. Other genotype pairs include HbSD, HbSO-Arab and HbSE (Meremiku, 2008).</p><p>Sickle hemoglobin in these disorders cause affected red blood cells to polymerize under conditions of low oxygen tension resulting in the characteristic sickle shape. Normal red cells live about 120 days in the blood stream but sickled red cells die after about 10 – 20 days. Because they cannot be replaced fast enough, the blood is chronically short of red blood cells, a condition called anaemia. Aggregation of &nbsp;sickle cells in the microcirculation from inflammation, endothelial abnormalities, and &nbsp;thrombophilia lead to ischemia in end organs and tissues distal to the blockage (Hayes, 2004).</p> <br><p></p>

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