Kumari Sunita1, Santiago Mas-Coma2, Maria Dolores Bargues3, Mohammad Aasif Khan1, Maria Habib1, Saad Mustafa1, Syed Akhtar Husain1. 1. Human Genetics Laboratory, Department of Biosciences, Central University Jamia Millia Islamia, New Delhi, 110025, India. 2. Departamento de Parasitología, Facultad de Farmacia, Universidad de Valencia, Av. Vicent Andres Estelles s/n, 46100, Burjassot, Valencia, Spain. S.Mas.Coma@uv.es. 3. Departamento de Parasitología, Facultad de Farmacia, Universidad de Valencia, Av. Vicent Andres Estelles s/n, 46100, Burjassot, Valencia, Spain.
Abstract
PURPOSE: Fascioliasis is caused by Fasciola species transmitted by freshwater Lymnaeidae snails and infecting herbivorous mammals and humans worldwide. In southern Asia, fascioliasis is a problem in livestock from the Near East to Bangladesh, where recent human infection reports are worrying. In this region, Fasciola gigantica is transmitted by species of the Radix auricularia superspecies group. In the densely populated northern Indian state of Uttar Pradesh, livestock appears infected throughout. The economic importance of buffaloes highlights the need to control their very high infection rates. METHODS: In the Gorakhpur area, a molecular method based on the two specific primer sets of genomic DNA was applied to fasciolids from buffaloes slaughtered in local abattoirs and cercariae from R. acuminata snails from freshwater collections. RESULTS: PCR products and sequences demonstrated that the cercariae belonged to F. gigantica and that R. acuminata acts as vector for its transmission to buffaloes. The 72.0% rate found in one transmission focus appears to be the highest worldwide record of fasciolid infection in a lymnaeid population. Lymnaeid prevalences and burdens found close to human communities indicate a very high infection risk. CONCLUSION: This method is simple, fast and cheap because there is no need for sequencing, it differentiates between fasciolid species and between fasciolids and other trematodes infecting R. acuminata, facilitates epidemiological surveys, and is useful for surveillance to evaluate the efficiency of control measures. Within climate change predictions, future increases of rain events and floods suggest the need for control and surveillance efforts in this endemic area.
PURPOSE: Fascioliasis is caused by Fasciola species transmitted by freshwater Lymnaeidae snails and infecting herbivorous mammals and humans worldwide. In southern Asia, fascioliasis is a problem in livestock from the Near East to Bangladesh, where recent human infection reports are worrying. In this region, Fasciola gigantica is transmitted by species of the Radix auricularia superspecies group. In the densely populated northern Indian state of Uttar Pradesh, livestock appears infected throughout. The economic importance of buffaloes highlights the need to control their very high infection rates. METHODS: In the Gorakhpur area, a molecular method based on the two specific primer sets of genomic DNA was applied to fasciolids from buffaloes slaughtered in local abattoirs and cercariae from R. acuminata snails from freshwater collections. RESULTS: PCR products and sequences demonstrated that the cercariae belonged to F. gigantica and that R. acuminata acts as vector for its transmission to buffaloes. The 72.0% rate found in one transmission focus appears to be the highest worldwide record of fasciolid infection in a lymnaeid population. Lymnaeid prevalences and burdens found close to human communities indicate a very high infection risk. CONCLUSION: This method is simple, fast and cheap because there is no need for sequencing, it differentiates between fasciolid species and between fasciolids and other trematodes infecting R. acuminata, facilitates epidemiological surveys, and is useful for surveillance to evaluate the efficiency of control measures. Within climate change predictions, future increases of rain events and floods suggest the need for control and surveillance efforts in this endemic area.
Authors: M A Valero; N Gironès; M A García-Bodelón; M V Periago; I Chico-Calero; M Khoubbane; M Fresno; S Mas-Coma Journal: Acta Trop Date: 2008-09-03 Impact factor: 3.112
Authors: M A Valero; M Navarro; M A Garcia-Bodelon; A Marcilla; M Morales; J L Hernandez; P Mengual; S Mas-Coma Journal: Acta Trop Date: 2006-10-24 Impact factor: 3.112
Authors: Núria Gironès; M Adela Valero; Maria A García-Bodelón; Isabel Chico-Calero; Carmen Punzón; Manuel Fresno; Santiago Mas-Coma Journal: J Infect Dis Date: 2007-04-11 Impact factor: 5.226
Authors: María Adela Valero; Mercedes Santana; Maria Morales; Jose Luis Hernandez; Santiago Mas-Coma Journal: J Infect Dis Date: 2003-08-06 Impact factor: 5.226
Authors: M D Bargues; M Vigo; P Horak; J Dvorak; R A Patzner; J P Pointier; M Jackiewicz; C Meier-Brook; S Mas-Coma Journal: Infect Genet Evol Date: 2001-12 Impact factor: 3.342