Études et publications

Polman K, Stelma FF, De Vlas SJ, Sow S, Fathers L, Le Cessie S, Talla I, Deelder AM, Gryseels B.

Tropical Medicine and International Health, 2001, 6(7):538-44 (PMID : 11469948)

Serum circulating anodic antigen (CAA) levels were compared with faecal egg counts in four subsequent population samples, randomly selected at 8-month intervals, in a recent Schistosoma mansoni focus in northern Senegal. In all four samples, antigen levels showed the same age-intensity profiles as egg counts, with a strong decline in adults. Also across population samples, a consistent relationship was found between egg counts and antigen levels. Assuming the level of CAA to be a direct reflection of worm burden, these findings support the idea that the observed egg count patterns and levels indeed reflect dynamics of worm burdens, and not of egg excretion or worm fecundity. Remarkably similar levels of both egg counts and CAA were observed in the first and last sample, collected in the same season (August--September), but 2 years apart. This suggests that a steady state of S. mansoni infection had already been reached shortly after the onset of the epidemic in this focus (3 years). Significantly lower infection levels were found in the intermediate population samples collected in January and April. The differences in infection levels across the four population samples may be because of seasonal transmission patterns. They would indicate a substantial turnover of worm populations, with an estimated average life span of only 7 months, probably less, in this recently emerged, intense S. mansoni focus.

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Remoué F, To Van D, Schacht AM, Picquet M, Garraud O, Vercruysse J, Ly A, Capron A, Riveau G.

Clinical and Experimental Immunology, 2001, 124(1):62-8 (PMID : 11359443)

The cellular and humoral acquired immune responses to Schistosoma haematobium 28 kD gluthathione S-Transferase (Sh28GST) antigen were evaluated in a Senegalese population chronically infected with S. haematobium parasite. We show a gender-dependent immune response in adult individuals presenting similar intensities of infection. Indeed, the specific IgA response and production of TGF-beta and IL-10 were found significantly higher in females compared to males. In addition, we showed that this profile was combined with a weak production of Th1-related cytokines (TNFalpha and IFNgamma) and was associated with an absence of proliferation to the antigen. A significantly higher Nuclear Matrix Protein 41/7 secretion, an apoptosis marker, was specifically observed in mononuclear blood cell cultures of females suggesting that a specific cell death process was engaged in a gender-dependent manner. This specific profile could be associated with the so-called T helper type-3 (Th3) immune response specifically promoting the production of IgA and would be developed upon the down-regulation of the specific Type-1 response by a probable cell death mechanism. This gender-dependent immune regulation, which may be under the influence of nonimmunological factors like sexual hormones, may be related to the chronicity of the infection.

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Tchuem Tchuenté LA, Southgate VR, Mbaye A, Engels D, Gryseels B.

Transactions of the Royal Society of Tropical Medicine and Hygiene, 2001, 95(1):65-6 (PMID : 11280069)

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Polman K, de Vlas SJ, Gryseels B, Deelder AM.

Parasitology, 2000, 121 Pt 6:601-10 (PMID : 11155931)

Circulating anodic antigen (CAA) levels in serum and faecal egg counts are both quantitative measures of Schistosoma mansoni worm burdens. In this study, we have tested whether circulating anodic antigens can be included into an established egg count model. A data set with 3 repeated faecal egg count and serum CAA measurements of 50 individuals from a community in Burundi with moderate endemicity was used. By means of Monte Carlo simulation, both antigens and egg counts were related to an underlying worm pair distribution, taking into account the variation in repeated measurements (within individuals) and the variation in worm burdens (between individuals). Models with various assumptions (e.g. presence or absence of density-dependent egg production) were tested. Whereas observed and predicted egg counts agreed fairly well, the circulating antigen data could not be described satisfactorily. In particular, the predicted number of negative antigen concentrations was much lower than observed, while the number of light positives was overestimated. There seems to be a mechanism that causes a shift of expected (low) positive CAA concentrations towards zeros, which the proposed models do not provide for. Possible biological as well as assay-related mechanisms that may account for this shift are discussed. The assumption that serum CAA concentrations are a simple direct reflection of worm (pair) burdens could not be corroborated by this modelling exercise. Apparently, the relationship between (measured) CAA concentrations, egg counts and worm burdens in human S. mansoni infections is more complex than assumed.

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