Development and validation of a quantitative PCR for the detection of Guinea worm (Dracunculus medinensis)

Coker, Sarah M.; Box, Erin K.; Stilwell, Natalie K.; Thiele, Elizabeth A.; Cotton, James A.; Haynes, Ellen; Yabsley, Michael J.; Cleveland, Christopher A.

doi:10.1371/journal.pntd.0010830

Cited by 2 publications

(2 citation statements)

References 37 publications

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“…Conventional PCR and nematode DNA amplification have been used to some extent, but the turnaround time from the sample reception to species confirmation can be up to two weeks. Recently, a fast quantitative polymerase chain reaction (GW qPCR) test has shown high sensitivity and specificity in diagnosing suspected adult female Guinea worm infections in humans and in domestic or wild animals [29]. This approach could allow faster confirmation of Guinea worm infections, leading to more rapid interventions while improving our understanding of infection patterns.…”

Section: N Pathogenicity and Host-pathogen Interactionmentioning

confidence: 99%

The current state of knowledge on dracunculiasis: a narrative review of a rare neglected disease

2023

Infez Med

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Dracunculiasis (Guinea Worm Disease) is a chronic disease that is primarily found in the arid and poor areas of our planet where water supply systems consist of open wells. This parasitic disease is transmitted to humans not only through the consumption of water contaminated with crustaceans harbouring larvae of Dracunculus medinensis, but also through the ingestion of paratenic (frogs) or transport hosts (fish). The natural progression of the disease is caused by adult worms invading connective tissues, leading to blistering and ulceration of the extremities, approximately one year after infection. In 1986, the Guinea Worm Eradication Program (GWEP) was launched and since then, the incidence of the disease has been reduced by over 99%. Indeed, the most recent global report from 2022 shows only 13 cases of human dracunculiasis worldwide, the lowest annual incidence ever reported. The new found knowledge of potential animal reservoirs and the recent discovery of possible edible paratenic hosts could pose challenges to the future eradication of this debilitating disease. Therefore, attempts to eradicate this parasitosis should not be postponed. Intensive research is needed in this neglected area of medicine, now that the goal is within reach.

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Section: N Pathogenicity and Host-pathogen Interactionmentioning

confidence: 99%

The current state of knowledge on dracunculiasis: a narrative review of a rare neglected disease

2023

Infez Med

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“…At present, PCR technology is widely applied in diagnosis and other fields of biosciences. The technology is used for diagnosis of NTDs including Buruli ulcers [16], Dengue [17], Chikungunya [18], HAT [19], leishmaniasis [20], Dracunculiasis [21], deep mycoses [22], onchocerciasis [23], rabies [24], STH [25], and yaws [26] among others. PCR lends itself as a sensitive pathogen detection tool owing to its ability to amplify a single copy of genome to billions of copies.…”

Section: Nucleic Acid Amplification Testsmentioning

confidence: 99%

Nanobody Technology and New Molecular Biology Methods to Advance Rapid Diagnostic Test for Neglected Tropical Diseases

Álvarez-Rodríguez¹,

Radwanska²,

Magez³

et al. 2023

Rapid Antigen Testing

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Worldwide, the cumulative annual disabilities and deaths due to neglected tropical diseases (NTDs) are in the millions, with most cases found in the low-income countries. The World Health Organization (WHO) has proposed a road map to eliminate NTDs by the year 2030. Core interventions being implemented to achieve this target are vaccinations, chemotherapeutic treatments, vector control, and practicing hygiene. Whereas multiple successes have been registered so far, inadequacies or the complete absence of diagnostics for some of the diseases being targeted, are however hampering ongoing eradication campaigns. Current diagnostics for NTDs are costly, require sophisticated gadgets, depend on electricity, are time consuming and labor intensive, have low detection/discriminatory power, or require trained personnel for operation. For these reasons, the use of such diagnostics is limited to only well-equipped laboratories, often inaccessible to the poor who are the most affected by the NTDs. To increase accessibility to diagnostics by those who need it the most, Rapid Diagnostic Tests (RDTs) are being developed by translating existing diagnostic technologies, or by invention of new technologies. Here, we reviewed conventional diagnostics for NTDs as well as their RDT translated formats, and explored nanobodies (Nbs) as alternative reagents for the development of the RDTs.

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Development and validation of a quantitative PCR for the detection of Guinea worm (Dracunculus medinensis)

Cited by 2 publications

References 37 publications

The current state of knowledge on dracunculiasis: a narrative review of a rare neglected disease

The current state of knowledge on dracunculiasis: a narrative review of a rare neglected disease

Nanobody Technology and New Molecular Biology Methods to Advance Rapid Diagnostic Test for Neglected Tropical Diseases

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