Does physical exercise influence in the development of neuroeschistosomiasis?

Neuroschistosomiasis is a severe form of presentation of schistosomiasis in which Schistosoma spp. affects the central nervous system. This is the first study performed to analyze whether there is any relationship between physical effort and the appearance of neuroschistosomiasis, through clinical, molecular and immunological evaluations. An experimental controlled study using 64 male Balb/c inbred mice divided into four groups according to presence or absence of S. mansoni infection and submitted to physical effort or resting was conducted. Thirteen weeks after exercise training, S. mansoni DNA was detected in the brain or spinal cord in about 30% of the infected animals moreover, only S. mansoni-positive samples showed positive labeling for S. mansoni antigens in the brain or spinal cord, with a striking reaction inside the microglia. However, the behavioral tests did not show any clinical symptoms of neuroschistosomiasis in animals submitted to physical effort or in resting. In animals with S. mansoni-positive DNA, immunohistochemical data revealed astrogliosis and microgliosis, elevated IL-10 levels and decreased TNF-α expression. This study demonstrated that isometric exercise does not promote neuroschistosomiasis, furthermore, ectopic forms of schistosomiasis in the central nervous system were largely asymptomatic and exhibited a Th2 immune response profile. More experimental studies are necessary in order to characterize the pathological process of experimental neuroschistosomiasis.

[Preliminary study on establishing an animal model of neuroschistosomiasis by direct injection of Schistosoma japonicum eggs through skull].

OBJECTIVE: To establish an experimental model of neuroschistosomiasis and investigate the model establishment factors. METHODS: Rabbits were used for the animal model and Schistosoma japonicum eggs (1 mg/ml) were directly injected into the brain by two ways of a bone drill or needle. The symptoms were observed and in the first and second week and later, the rabbits' brains were removed for pathological examinations. RESULTS: One to two weeks after the injection of schistosome eggs, the rabbits had various neurological symptoms such as loss of appetite, hemiparesis, seizure, etc. The pathological analysis showed the schistosome egg granuloma inflammatory reaction among 90% rabbits. CONCLUSION: This new method of direct injection of S. japonicum eggs through skull into the brain provides a good and easy animal model of neuroschistosomiasis.

Neuroinflammatory implication of Schistosoma mansoni infection in the mouse.

Schistosomiasis is a parasitic disease due to Schistosoma mansoni. Schistosome infection is known to induce granulomas not only in the spleen, bladder, liver and intestine but also in the brain and spinal cord resulting in severe neuropathological and psychiatric disorders though the interaction between Schistosoma mansoni infection and the nervous system has received on the whole little attention. In the present review it has been discussed recent findings from experimental Schistosoma mansoni infection in mouse nervous system. We show that brain granulomas are associated with a significant alteration in the constitutive levels of nerve growth factor (NGF), a trophic factor playing an essential role in nerve growth and differentiation and in preventing neuronal damages. Animals infected with schistosomes suffered also of increased pain sensitivity which was inhibited by TNF-alpha antibody injections and not by anti-NGF. These findings suggest that the neuropathological dysfunctions in neuroschistosomiasis may be linked to changes in the basal levels and/or activity of neurotrophic factors caused by local formation of granulomas.