Search results for "Dracunculus medinensis"
showing 4 items of 4 documents
Dogs and Guinea worm eradication
2016
After 30 years of control campaigns, guinea worm faces eradication. However, dogs are expected to thwart the eradication of dracunculiasis as they act as alternative hosts of the worm. The health community un doubtedly have to recognise the success of the Guinea Worm Eradication Program (GWEP), although some flaws cannot be overlooked. One of the most essential points when trying to achieve the control of parasitic infections is to determine the role of reservoirs that could maintain the disease. Erroneously, dogs are likely to have been ignored as reservoirs of Dracunculus medinensis so far. I fi nd it hard to believe that a parasite that has always been considered specific to humans is ab…
Dracunculiasis: water-borne anthroponosis vs. food-borne zoonosis.
2019
Abstract Dracunculiasis is the first parasitic disease set for eradication. However, recent events related to the Dracunculus medinensis epidemiology in certain African countries are apparently posing new challenges to its eradication. Two novel facts have emerged: the existence of animal reservoirs (mainly dogs but also cats and baboons), and possibly a new food-borne route of transmission by the ingestion of paratenic (frogs) or transport (fish) hosts. Therefore, instead of being exclusively a water-borne anthroponosis, dracunculiasis would also be a food-borne zoonosis. The existence of a large number of infected dogs, mainly in Chad, and the low number of infected humans, have given ris…
Guinea Worm Infection in Dogs: A Case of Reverse Zoonosis that Impedes Dracunculus medinensis Eradication
2020
Dracunculus medinensis or Guinea worm was largely considered an exclusive human parasite. The adult female D. medinensis (up to 100 cm long and 1.5–2.0 mm thick) inhabits and moves in the connective tissue, including the skin. Large females protrude from the skin causing unusual and unambiguous signs. Hosts become infected by drinking water containing the crustacean intermediate hosts (cyclopoid copepods known as water fleas) infected with Guinea worm L3 larvae. After years of a successful eradication campaign (focused mainly on preventing humans from drinking unfiltered or untreated water), Guinea worm transmission has been eliminated from most, but not all, countries. An unforeseeable hig…
Commentary: Dogs and the classic route of Guinea Worm transmission: an evaluation of copepod ingestion
2020
Dracunculus medinensis, the causative agent of Guinea worm disease in humans, is being reported with increasing frequency in dogs. However, the route(s) of transmission to dogs is still poorly understood. Classical transmission to humans occurs via drinking water that contains cyclopoid copepods infected with third stage larvae of D. medinensis, but due to the method of dog drinking (lapping) compared to humans (suction and/or retrieval of water into containers), it seems unlikely that dogs would ingest copepods readily through drinking. We exposed lab raised beagles to varying densities of uninfected copepods in 2 liters of water to evaluate the number of copepods ingested during a drinkin…