Estimating the risk of swimmer's itch in surface waters A case study from Lake Baldeney, River Ruhr

0468315 - BC 2017 RIV DE eng J - Journal Article
Selbach, C. - Soldánová, Miroslava - Sures, B.
Estimating the risk of swimmer's itch in surface waters A case study from Lake Baldeney, River Ruhr.
International Journal of Hygiene and Environmental Health. Roč. 219, č. 7 (2016), s. 693-699. ISSN 1438-4639. E-ISSN 1618-131X
R&D Projects: GA ČR GAP505/10/1562
Institutional support: RVO:60077344
Keywords : Parasite * Trichobilharzia * Swimmer's itch * Cercarial dermatitis * Risk factors * Prevention
Subject RIV: EH - Ecology, Behaviour
Impact factor: 4.643, year: 2016

Swimmer's itch is a zoonotic disease caused by certain digenean trematodes, in Europe most noticeably by bird schistosomes of the genus Trichobilharzia. These parasites require waterfowl and aquatic snails as final and intermediate hosts, respectively, to complete their life cycle. Swimmer's itch occurs when the free-swimming larvae emitted from snails, the cercariae, accidentally infect humans. Here the parasites cannot complete their life cycle but can cause allergic inflammatory responses of the skin. In the context of the joint BMBF project `Sichere Ruhr' (Safe Ruhr), which evaluates the Ruhr River as a potential bathing water, the occurrence of the causative agents of swimmer's itch in Lake Baldeney was studied. A total of 1741 snails was examined for the presence of trematode infections, including bird schistosomes. Snails infected with Trichobilharzia spp. were found at three sampling locations but showed low overall prevalences (0.6-3.0%). Based on parasite and host biology, risk factors were evaluated and discussed in the context of the potential use of Lake Baldeney as a bathing water. Although bird schistosomes only constitute a fraction of the trematode diversity occurring in natural snail populations and show low prevalence, they still pose an infection risk due to the high emission rates of cercariae from individual snail hosts. A wide variety of often interacting biotic and abiotic factors, as well as personal behaviour have an effect on the likelihood and severity of a human infection. Based on these risk factors, a number of possible preventive actions aiming at the disruption of the life cycle, or personal protective measures can be suggested. While absolute protection is impossible (unless swimming in natural waters is altogether avoided) some preventive measures can reduce the risk of human infections.
Permanent Link: http://hdl.handle.net/11104/0266124