An evaluation and update of guinea worm (dracunculus medinensis) as an endemic parasitic organism in nigeria
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 Guinea Worm (Dracunculus medinensis)
- 2.2Historical Perspective
- 2.3Global Distribution
- 2.4Life Cycle of Guinea Worm
- 2.5Transmission and Infection
- 2.6Symptoms and Diagnosis
- 2.7Treatment and Control Measures
- 2.8Socio-economic Impact
- 2.9Research Progress and Updates
- 2.10Future Prospects and Challenges
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 Methodology
Chapter FOUR
DATA PRESENTATION AND ANALYSIS
- 4.1Data Analysis and Interpretation
- 4.2Comparison of Findings
- 4.3Relationship to Existing Literature
- 4.4Discussion on Treatment Efficacy
- 4.5Impact on Public Health Policies
- 4.6Community Engagement Strategies
- 4.7Technological Advances in Control
- 4.8Recommendations for Future Research
Chapter FIVE
SUMMARY, CONCLUSION AND RECOMMENDATIONS
- 5.1Summary of Findings
- 5.2Conclusions Drawn
- 5.3Contributions to Knowledge
- 5.4Implications for Practice
- 5.5Recommendations for Stakeholders
Thesis Abstract
Abstract
Guinea worm (Dracunculus medinensis) is a parasitic organism that has plagued many regions in Africa, including Nigeria, for centuries. This study aimed to evaluate the current status of guinea worm as an endemic parasite in Nigeria and provide updated information on its prevalence, transmission patterns, control measures, and potential eradication strategies. A comprehensive review of existing literature, reports from the Nigerian Ministry of Health, and data from recent surveillance efforts was conducted to assess the extent of guinea worm infestation in the country. The findings revealed that while significant progress has been made in reducing the incidence of guinea worm in Nigeria over the past few decades, the parasite still remains a public health concern in certain regions. Factors such as lack of clean drinking water sources, inadequate sanitation practices, and limited access to healthcare services have contributed to the persistence of guinea worm transmission in these areas. Additionally, challenges such as conflict, displacement of populations, and climate change have further complicated efforts to control the spread of the parasite. To address these challenges, a multi-faceted approach is recommended, which includes improving access to safe drinking water, promoting community-based health education and behavior change interventions, strengthening surveillance and case detection systems, and enhancing collaboration with international partners and stakeholders. Furthermore, the study highlights the importance of continued research and monitoring to track the progress of guinea worm eradication efforts in Nigeria and identify emerging trends or potential outbreaks. Overall, this evaluation provides valuable insights into the current status of guinea worm as an endemic parasitic organism in Nigeria and underscores the need for sustained efforts to eliminate this preventable disease. By implementing targeted interventions and mobilizing resources effectively, Nigeria can work towards achieving the goal of guinea worm eradication and improving the health and well-being of its population.
Thesis Overview
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</p><p><strong> 1.0 INTRODUCTION</strong></p><p>Guinea worm is an endemic parasitic organism that belongs to the phylum Nematoda. The worm has its scientific name as (<em>Dracunculus Medineansis</em>). Guinea worm cause a disease called, “Dracunculiasis” or “<em>Dracunculosis</em>”. The disease of <em>Dracunculus</em> <em>Medinensis</em> can be described in latin as “disturbance with little dragon”. (Barry, 2007). The worm is found to be about 2 – 3 feet in length. (Hunter, 2007). Guinea worm is also found to be a nematode that causes an incapacitating disease, which affect people in poor, remote areas of Africa, Yemen and India (Watts, 2001). This disease caused by <em>Dracunculus Medinensis</em> (Guinea worm) is a long established human infection which was clearly referred to by various authors from India, Greece and the Middle East in antiquity. In historic times, the infection caused by Guinea worm occurred in Algeria, Egypt, Gambia, Guinea Conakry, the Middle East, South America and the West Indies. (CDC 1999).</p><p>In Nigeria, the infection of guinea worm occurred in late 1980s. Its connection of the infection with water sources was recognized early and it was also known that if the pre-patent period were not so long, the mode of infection would have been plain and clear many centuries earlier (Abolarin, 1999). It was found that the larvae expelled from emerging female worms in the limbs of sufferers, developed in fresh water, Cyclops living in ponds, which got ingested through drinking water. Female worms which are pre-emergent can easily move through the connective tissues, but when they are about to emerge to the surface, a few larvae are being released into the sub-dermis through a rapture at the anterior end. The reaction of the host results in the formation of a burning, painful blister, which bursts in a few days to give a shallow ulcer, and there is a marked inflammatory response against the cuticle of the entire worm, preventing its removal. The expulsion of the worms is done with a bacteriological sterile blister fluid which contains larva surrounded by polymorph nuclear neutrophils with macrophage, lymphocytes and eosinophils. After the expulsion of thousand of the larvae, the end of the worm dies up and this mode of expulsion is repeated a few times, with complete worm being extruded in a few weeks. The lesson then gets resolved quickly, but the track of the worm becomes secondarily infected in about half of all the cases, and patients become severely incapacitated. (Ahearn, et al 1996).</p><p>A study in Nigeria shows that about 60% patients, mostly in the age bracket of 15-49 years old of both school and working age, were disabled for an average of 12 – 13 weeks during the yam and rice harvesting period. The female worms sometimes burst in the tissues, resulting in a very large pus-filled abscess and cellulites (Caincross, et al 2002 and Ahearn, et al 1996).</p><p><strong>1.1 AN EVALUATION OF GUINEA WORM (DRACUNCULUS MEDINENSIS) AS AN ENDEMIC PARASITIC ORGANISM IN NIGERIA</strong></p><p>Guinea worm is one of the most studied human parasites in Nigeria, with history of its behaviour reaching as far back as the second century. This worm brings about painful and burning sensation which is experienced by infected patient and has resulted to the disease called guinea worm disease (<em>Dracunculiasis</em>). (Bulcher, et al 2005). In Nigeria, endemic areas; people who are infected by the worm are incapacitated due to the disease it causes. It keeps people out of the work and their activities especially farmers, manual workers and students, thus leading to the poor state of several sectors in the country. (Wikipedia, 2009, Bulcher et al 2005).</p><p><em>Dracunculus</em> <em>Medinensis</em> (Guinea worm) is known to be endemic mostly in areas where there is no safe water supply for drinking purposes. In 2008, 5,000 cases were discovered as compared to 201,453 cases in 1991. In Nigeria, the main endemic areas are:</p><ol><li>Ebonyi state</li><li>Oyo state</li><li>Borno state</li><li>Plateau state</li><li>Anambra state</li><li>Kwara state</li><li>Niger state.</li></ol><p>In Nigeria (2009) (between January and March) Guinea worm disease was declared free (Lawal, 2009).</p><p><strong>1.2 SEASONAL NATURE OF GUINEA WORM (DRACUNCULUS MEDINENSIS)</strong></p><p>There are two patterns of seasonality that occur in Nigeria (areas of endemicity) but this depends on the climatic factors (Guiguemde, 2007).</p><ul><li>Transmission of guinea worm disease during the rainy season from May to August with a peak in June and July. This pattern usually occurs in the Northern part of the country (Guiguemde, 2007)</li><li>Transmission of the disease caused by guinea worm during the dry season which may occur as from September to January, as found in some parts of Oyo state, particularly in areas with shallow ponds which dry up by January. Dracunculiasis continues towards the dry season in Anambra state and Kwara state. This pattern is related to the consumption of water from ponds formed in the beds of seasonal rivers (Guiguemde, 2007).</li></ul><p><strong>1.3 EPIDEMICITY AND ENDEMIC AREAS OF GUINEA WORM IN NIGERIA</strong></p><p>Transmission of Dracunculiasis depends on the provisions of water sources, which has important consequences for the designation of eradication programs. Its occurrence takes place in a limited number of areas of endemicity on which these eradication programs are meant to focus. (Nwosu et al 2010).</p><p>In Nigeria, in 1991, over 201,453 cases were reported in about 4,576 villages, (Cairncross, et al 2002).</p><p>In Ohaozara, Ebonyi state, 5,058 individuals were examined, but a total of 2,422 individuals had either blisters or its ulcers. In 2002, between January and August, the number of cases reduced to about 1,438 cases in Ebonyi state. Among the 16 states of Nigeria’s 36 states affected which includes Plateau, Kwara, Oyo, Anambra, Borno and Niger states, Ebonyi state has the highest incidence of the disease caused by guinea worm (Udonsi, 2002, Adeyeba, et al 1999).</p><p>Sex-specific prevalence rate were 50% for males and about 44.4% for females, while age related cases ranges between 30% to 31% among individuals below 20 years, and between 64.5 – 71% among individuals above the age 20 within 1991 endemic year in the country. (United Nation’s Office, 2002). In Oyo state, as of 1988, about 17,000 people were infected, but were reduced to 300 in 1991. As of 1987, a total of 650,000 cases were discovered across the nation. (Lawal, 2009). In 2008, the number of cases discovered was about 5,000 cases of guinea worm infection nationwide. (Wikipedia, 2009). In Ribi and Kanje village in Awe local government area of Plateau state, Nigeria, 982 people were found infected, (Nwobi et al, 1999) which most the infections occurred on the lower limbs of the victims. Emergency of worms from the palm, wrist and upper arm were also encountered. Out of 982 case discovered, 206 persons were totally incapacitated, 193 disabled (amputee) and 431 suffered mere incapacity, while 152 were unaffected, but between January and March 2009, no case of guinea warm was discovered in Nigeria (Lawal Iyabo, 2009).</p>
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