The epidemiology and control of gastrointestinal nematodes of small ruminants in a semi-arid area of Kenya with emphasis on hypobiosis of Haemonchus contortus

A study on the epidemiological dynamics of gastrointestinal nematodes of small ruminants was conducted in a semi-arid area of Kenya over a period of two years. Three major trichostrongylid species were identified; Haemonchus, Trichostrongylus and Oesophagostomum. Trichuris and Strongyloides species were occasionally encountered. Of the major trichostrongylids, Haemonchus spp. was the most prevalent (90%) and accounted for about 80% of the total worm burden. This species was found to undergo hypobiosis at levels that varied with seasons: nil levels of hypobiosis were recorded during the wet months and as much as 80% was recorded during the dry months. Hypobiosis was not investigated in the other nematode species. Evaluation of the relationship between the faecal egg count and the worm burden showed that the two parameters were more highly correlated during the wet months than during the dry months. This was a desirable situation because it is during the wet season that livestock owners in this area need to closely monitor the worm burdens in their animals. Treatment with ivermectin before the onset of the rains not only delayed the onset of egg shedding but also controlled clinical helminthiasis. In addition, a temporal change in the pattern of the appearance of infective larvae on pasture was observed; the appearance was delayed for about a month after the onset of the rains. The effect of treatment administered during the rains was a temporary and a short-lived relief of infection as evidenced by a brief decline in egg output: it had no detectable impact on pasture infectivity. These results suggested that removal of hypobiotic larvae before they resumed development had the combined benefit of reducing both the severity of clinical helminthiasis and the level of pasture contamination. This impact was expressed in improved flock performance and particularly in the improvement of birth weights that subsequently enhanced kid and lamb survival rates. Probably due t

Prevalence and spatial distribution of trematode cercariae in vector snails within different agro-ecological zones in Western Kenya, 2016

Introduction: freshwater vector snails' distribution, infection with cercariae, preferred habitat and possible trematodiases transmission foci is not well known in Western Kenya. We sought to determine the distribution and prevalence of infection of snails per agro-ecological zone and environmental factors in vector snail habitats. Methods: we conducted a cross-sectional survey from March, 2016 - May, 2016, harvested and identified snails using shell morphology, determined their infection with trematode cercariae using microscopy, used descriptive statistics to estimate the prevalence of infection and relationship between snail abundance and environmental factors. Results: we sampled a total of 1,678 vector snails from 47 sampling sites of which 42% were Lymnaeid, 23% Biomphalaria, 10% Bulinus, 22% Oncomelaniae and 2% Melanoides. Lower Midland I Ago-Ecological Zones had 44% of the snails and streams from springs had 41% of the snails. Overall, 26.5% (445/1678) (95% CI: 24.4 - 28.6) of the snails shed cercariae. Cercariae were found in 11 (23%) of the sites and in all zones. F. gigantica cercariae were shed by L. natalensis, B. pfeifferi, B. sudanica. Lakeshore had both F. gigantica and S. mansoni cercariae shed by B. sudanica. About 72% (1,202/1,678) of snails were found in water with a pH 6.5 - 7.5. Grass habitat had 54% (912/1,678) of the snails. Conclusion: lymnaeid snails were present in all the zones, while streams from springs and near neutral habitats had most of the snails. Infection with trematode cercariae was noted in all the zones. Trematodiases control should be focused on all zones especially in freshwater streams and lakeshores

Prevalence and spatial distribution of Trematode cercariae in Vector Snails within different Agro-Ecological Zones in Western Kenya, 2016.

IntroductionFreshwater vector snails' distribution, infection with cercariae, preferred habitat and possible trematodiases transmission foci is not well known in Western Kenya. We sought to determine the distribution and prevalence of infection of snails per agro-ecological zone and environmental factors in vector snail habitats.MethodsWe conducted a cross-sectional survey from March, 2016 - May, 2016, harvested and identified snails using shell morphology, determined their infection with trematode cercariae using microscopy, used descriptive statistics to estimate the prevalence of infection and relationship between snail abundance and environmental factors.ResultsWe sampled a total of 1,678 vector snails from 47 sampling sites of which 42% were Lymnaeid, 23% Biomphalaria, 10% Bulinus, 22% Oncomelaniae and 2% Melanoides. Lower Midland I Ago-Ecological Zones had 44% of the snails and streams from springs had 41% of the snails. Overall, 26.5% (445/1678) (95% CI: 24.4 - 28.6) of the snails shed cercariae. Cercariae were found in 11 (23%) of the sites and in all zones. F. gigantica cercariae were shed by L. natalensis, B. pfeifferi, B. sudanica. Lakeshore had both F. gigantica and S. mansoni cercariae shed by B. sudanica. About 72% (1,202/1,678) of snails were found in water with a pH 6.5 - 7.5. Grass habitat had 54% (912/1,678) of the snails.ConclusionLymnaeid snails were present in all the zones, while streams from springs and near neutral habitats had most of the snails. Infection with trematode cercariae was noted in all the zones. Trematodiases control should be focused on all zones especially in freshwater streams and lakeshores