Annette Gomot scite author profile

Annette Gomot

5Publications

218Citation Statements Received

73Citation Statements Given

How they've been cited

320

190

How they cite others

114

Affiliations

University of Franche-Comté, French National Centre for Scientific Research, Biologie Intégrative des Organismes Marins

Publications

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Dose-Dependent Effects of Cadmium on the Growth of Snails in Toxicity Bioassays

Gomot

1997

Archives of Environmental Contamination and Toxicology

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The effects on survival and growth of exposure to cadmium (Cd) in the food were analyzed in juvenile snails (age one month, mean weight 1 g) of the two subspecies Helix aspersa aspersa (H.a.a.) and H. aspersa maxima (H.a.m.). The experiments lasted for four weeks and the animals were fed with special snail food containing 0-, 50-, 100-, 200-, 400-, and 800 microg Cd/g of dry food. No significant adverse effect (NOEC) was noted at 50 microg/g for three weeks. A negative effect of Cd on growth was noted from 100 to 800 microg/g and plotting the growth coefficient variation against the Cd concentration led to an estimate of the EC75 at day 14 of 370 microg/g in H.a.a. and 470 microg/g in H.a.m. and at day 28 of 290 microg/g in H.a.a. and 330 microg/g in H.a.m. Juvenile snails are thus a suitable material for use as bioindicators in the assay of contamination of food.

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Toxic Effects of Cadmium on Reproduction, Development, and Hatching in the Freshwater SnailLymnaea stagnalisfor Water Quality Monitoring

Gomot¹

1998

Ecotoxicology and Environmental Safety

101

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Comparison of the Bioaccumulation Capacities of Copper and Zinc in Two Snail Subspecies (Helix)

Gomot¹,

Pihan

1997

Ecotoxicology and Environmental Safety

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Cross‐reactivity between terrestrial snails (Helix species) and house‐dust mite (Dermatophagoides pteronyssinus). I. In vivo study

Vuitton

Rancé

Paquin

et al. 1998

Allergy

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Clinical reports have suggested an unusual frequency in the number of patients with food allergy to snails who are also allergic to the house-dust mite (HDM). As allergy to HDM is one of the most frequent sensitizations in atopic patients of Western countries, evaluation of the relevance of the concomitant sensitization to Dermatophagoides pteronyssinus and to snails is an important consideration. To evaluate the responsibility of different snail components and of snail mites for inducing in vivo hypersensitivity in patients allergic to HDM, the in vivo reactivity of patients with clinical symptoms after ingestion of snails was assessed by skin prick tests with extracts and hemolymph from four different Helix species snails, and extracts from the snail parasitic mite, Riccardoella limacum. In addition, to obtain epidemiologic data on cosensitization to HDM and snails in allergic patients, the frequency of snail sensitization and its relationship to HDM sensitization were determined in a population of 169 allergic children. All patients allergic to snails had positive skin prick tests to the snail extracts and none to R. limacum extract. The number of positive skin reactions did not significantly differ whatever the species, snail part, or heating procedure used. The strongest reactions were obtained with Helix pomatia (Burgundy snail). Among the 169 prospectively tested children, 38 had a positive prick test to snail extracts; 79% of the snail-sensitized children had sensitization to HDM; and 31% of the children allergic to HDM were found to be sensitized to snails. These results show that snail components, and not the mite R. limacum, were responsible for the in vivo hypersensitivity. These snail components reacting in vivo are present in different parts of snails, including the hemolymph. One-third of the children allergic to HDM were sensitized to snails without any previous ingestion of snails: this observation suggests that HDM was the sensitizing agent and that the cross-reaction could be clinically relevant in countries where eating snails is common.

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BIOCHEMICAL COMPOSITION OF HELIX SNAILS: INFLUENCE OF GENETIC AND PHYSIOLOGICAL FACTORS

Gomot¹

1998

J Mollus Stud

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Annette Gomot

Dose-Dependent Effects of Cadmium on the Growth of Snails in Toxicity Bioassays

Toxic Effects of Cadmium on Reproduction, Development, and Hatching in the Freshwater SnailLymnaea stagnalisfor Water Quality Monitoring

Comparison of the Bioaccumulation Capacities of Copper and Zinc in Two Snail Subspecies (Helix)

Cross‐reactivity between terrestrial snails (Helix species) and house‐dust mite (Dermatophagoides pteronyssinus). I. In vivo study

BIOCHEMICAL COMPOSITION OF HELIX SNAILS: INFLUENCE OF GENETIC AND PHYSIOLOGICAL FACTORS

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