Abstract
Food-borne fluke infections/trematodiases are emerging as a major public health problem worldwide with over 40 million people affected and over 10% of world population at risk of infection. The major concentration of these infections is in Southeast Asian and Western Pacific Regions, where the epidemiological factors (including the prevalent socio-cultural food habits) are conducive for transmission of these infections. The preponderance of these infections is usually in food deficit poor communities that lack access to proper sanitary infrastructure. While targeting health for all, especially the poor rural tribal communities, it is imperative to take these infections into account. Bayesian analysis phylogeny of food-borne trematode parasites under study showed that they are closely related phylogenetic groups. To focus the control strategies at the target populations, the aim of the present study was to establish molecular methods for accurate discrimination between common food-borne trematodes parasites Paragonimus (lung fluke), Fasciolopsis (giant intestinal fluke) and Fasciola (liver fluke), the infections of which commonly prevail in NE India. In the first step, we amplified and sequenced the second internal transcribed spacer (ITS2) region of ribosomal DNA, utilizing nucleotide differences between the multiple sequence alignments of the parasites under study. Based upon the differences in nucleotide sequences of conserved regions, we designed species-specific primers that can unequivocally discriminate one species from another. ITS2 sequence motifs allowed an accurate in-silico distinction of the trematodes. The data indicate that ITS2 motifs (≤ 50 bp in size) can be considered promising tool for trematode species identification. Using molecular morphometrics that is based on ITS2 secondary structure homologies, phylogenetic relationships with various isolates of several trematode species have been discussed. The present results suggest that the ITS2 specific primers can be used for epidemiological investigations of the prevalence of trematodiasis.
Highlights
Trematodiases are the zoonoses, caused by trematodes of flukes (Platyhelminthes: Trematoda: Digenea)
The cercariae which are shed in water either enter the definitive host directly or encyst on objects or in the bodies of animals, transforming into metacercariae, the infective stage
The definitive host becomes infected by swallowing the metacercariae which develop to sexual maturity in various organs according to the species concerned
Summary
Trematodiases are the zoonoses, caused by trematodes of flukes (Platyhelminthes: Trematoda: Digenea). The flukes are commonly oval or leaf shaped and furnished with two suckers (the anterior oral sucker surrounding the mouth and a posterior ventral sucker or acetabulum for adhering with their hosts). Digenetic trematodes have complicated life cycles that involve one or two intermediate hosts. The cercariae which are shed in water either enter the definitive host directly or encyst on objects or in the bodies of animals (second intermediate hosts), transforming into metacercariae, the infective stage. The definitive host becomes infected by swallowing the metacercariae which develop to sexual maturity in various organs according to the species concerned. The prerequisites for transmission of trematodiases in a community involves presence of water bodies with plenty of water plants to support the large snail populations, consumption of risky foods such as undercooked/
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
