Parasitic castration in the snail-trematode relationship can be understood as any change in the reproductive function of the snail that is due to interference by the developing larvae inside the snail that leads to the reduction or complete disruption of egg-laying activity. This study was designed to observe the parasitic castration of Biomphalaria glabrata infected with Schistosoma mansoni during both the pre-patent and patent periods. The effect of infection on snail fecundity and fertility, growth rate and survival was studied during the 62 days following miracidia exposure. An integrated approach was employed that used biochemical and histological tools over the same period. To study the effect of infection on reproduction, we individually exposed 30 snails to 5 miracidia each and tracked their fertility and fecundity. For our histopathological studies, 50 snails were exposed to 20 miracidia each, and for our histochemical studies, 50 snails were exposed to 5 miracidia each. An equal number of uninfected snails were used as a control for each group. The B. glabrata exposed to the BH strain of S. mansoni showed 50% positivity for cercarial shedding. Both the experimental and control groups showed 100% survival. The pre-patent period lasted until 39 days after exposure to miracidia. Exposed snails that showed cercarial shedding exhibited higher growth rates than either exposed snails that did not demonstrate cercarial shedding or uninfected controls. Exposed snails without cercarial shedding and uninfected controls showed no differences in the reproductive parameters evaluated during the patent period; snails experiencing cercarial shedding showed a reduction in fecundity and fertility. These snails began to lay eggs only after the 50th day post miracidia exposure. The haemolymph glucose levels showed an oscillating pattern that decreased during periods of greater mobilisation of energy by the larvae and was accompanied by a depletion of glycogen in the cephalopodal mass and digestive gland. Histopathological examination at 55 days showed that the ovotestis was highly atrophied. There was almost complete disappearance of germ cells, and the supporting stroma formed a nearly empty net. At day 45, the infected digestive gland showed a high cylindrical epithelium with little preserved cytoplasm. The contents of the secretory granules of the albumen gland of infected animals stained with Alcian blue (AB), pH 1.0, indicating the presence of sulphated carbohydrates. Thus, parasitic castration in the B. glabrata-S. mansoni model may be regulated directly and indirectly by the developmental stage of the trematode and the biochemical and histopathological alterations during the patent period of infection.
The nematode Calodium hepaticum (syn.
Capillaria hepatica) is a zoonotic helminth found
mainly infecting rats. It was studied the prevalence of C.
hepaticum infection in Rattus norvegicus in an
urban area of Rio de Janeiro (Brazil), with low urban planning and
sanitation. The presence of C. hepaticum was identified through
visible yellowish-white lesions in liver tissue and histological analyses. The
total prevalence of infection was 45%, with no significant differences
between sex and age. The presence of infected rodents near the peridomestic area
poses substantial risk to human health.
Angiostrongylus cantonensis is considered the main etiological agent of eosinophilic meningitis in humans. At present, this zoonosis is considered an emerging disease mainly in the Americas. The aim of this study was to determine the prevalence of Achatina fulica infected by Angiostrongylus cantonensis in restinga areas along beaches in the west zone of Rio de Janeiro city, Brazil. The study areas included the following beaches: Barra da Tijuca, Recreio dos Bandeirantes, Reserva, Prainha and Grumari. Ninety specimens of Achatina fulica were collected. Positive molluscs were found only in Barra da Tijuca. Infection prevalence was 5.5%. The presence of this parasite in the beachfront areas, in the west zone of Rio de Janeiro city demonstrates the potential risk of infection for visitors and the expansion of this helminth in the State of Rio de Janeiro.
Some terrestrial gastropods are agricultural pests and are exposed to toxic products capable of causing physiological and biological alterations. The action of some herbicides and molluscicides has been studied on freshwater snails, but there are few studies of terrestrial species. This study analyzed the biological and physiological responses of Bulimulus tenuissimus exposed to the natural molluscicidal latex of Euphorbia milii var. hislopii and the synthetic herbicide Roundup® Original. A total of 210 snails were divided and exposed for 24 hours to the products (latex or herbicide in concentrations of 1,000 ppm and 100,000 ppm) and type 2 water. Of this total, 150 exposed animals were analyzed biochemically after 24 hours, and the others were observed during 30 days for analysis of the mortality rate. After 24 hours, some snails presented escape mechanisms such as epiphragm formation, cephalopedal mass retraction and burial. The latex did not cause metabolic alterations but the herbicide altered the carbohydrate metabolism of B. tenuissimus, reducing energy substrates in the sites analyzed (hemolymph, digestive gland and cephalopedal mass). Regarding the protein metabolism, there was no alteration after exposure to both analyzed substances. After 30 days of exposure, higher mortality was recorded for the groups exposed to the herbicide. These findings suggest that B. tenuissimus is resistant to the molluscicidal latex of Euphorbia milii var. hislopii more than the herbicide Roundup® Original.
Many snail species act as intermediate hosts of helminths that transmit diseases
to humans and animals, such as schistosomiasis and angiostrongyliasis. São
Gonçalo, a mostly urban municipality in Rio de Janeiro State, Brazil, has
undergone fundamental environmental impacts, which favor the establishment of a
range of diseases, for which snails act as the intermediate hosts of the
etiological agents. In the present study, freshwater and terrestrial snail
populations were surveyed in different environments within five city districts,
and the presence of helminths was determined in the collected specimens. A total
of 287 individuals were collected, six species from freshwater environment,
Pomacea sp. (Ampullariidae), Melanoides
tuberculata (Thiaridae), Biomphalaria tenagophila
(Planorbidae), Dysopeas muibum (Subulinidae), Physa
marmorata, and Physa acuta (Physidae), and two
from terrestrial environment, Achatina fulica (Achatinidae) and
Bradybaena similaris (Bradybaenidae). Snails were found in
only two districts, Centro, an urban area, and Ipiiba, a rural area. Thirteen
percent of the specimens of A. fulica eliminated larvae of the
nematode Angiostrongylus cantonensis. None of the analyzed
freshwater snails contained helminths.The most abundant and frequent snails were
B. tenagophila, M. tuberculataand
A. fulica, and the latter two species are exotic. The
disturbance and degradation of natural areas adjacent to residential zones favor
the proliferation of helminths, jeopardizing the local residents health. The
abundance of A. fulica and B. tenagophila in
the study area reinforces the need for a continuous and systematic monitoring of
the snail fauna in this region.
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