ABSTRACT
Se determinó la presencia de Giardia intestinalis y Cryptospodidium parvum, bacteriófagos de Escherichia coli y organismos indicadores de contaminación (OIC), en muestras de camarones para el consumo humano comercializados en el estado Zulia. Los parásitos se concentraron a partir de sistemas digestivos de pools de camarones por la técnica de formol-éter y se cuantificaron por inmunofluorescencia directa. La concentración de los bacteriófagos de E. coli F+ y los OIC se evaluó por técnicas estándar. En este trabajo se detectó la presencia de G. intestinalis, C. parvum, bacteriófagos y E. coli en camarones comercializados en el estado Zulia que cumplían los criterios de la normativa venezolana de calidad sanitaria e inocuidad. Del total de muestras analizadas el 91,5% fueron positivas para G. intestinalis (promedio: 36,6 quistes/100g), 95,3% para C. parvum (promedio: 32,8 ooquistes/100g), 100% para los bacteriófagos de E coli F+ (promedio de 2,8 x 103 UFP/100 g) y 71,5% para E. coli (promedio de 4,3 x 104 NMP/g). Los resultados obtenidos indican que los camarones pueden convertirse en un vehículo para la transmisión de patógenos al hombre y dejan en evidencia la necesidad de la inclusión de un parámetro parasitológico y viral en el control de la calidad microbiológica de estos productos alimenticios.
The presence of G. intestinalis and C. parvum, E. coli F+ bacteriophages and fecal pollution indicator organisms was determined in shrimp for human consumption marketed in the State of Zulia. Parasites were concentrated from the digestive systems of shrimp pools, detected by formalin-ether and quantified by direct immunofluorescence. E. coli F + bacteriophage and pollution indicator organism concentrations were determined by standard techniques. In this work, G. intestinalis, C. parvum, E. coli F + bacteriophages and E. coli were detected in shrimp for human consumption marketed in the State of Zulia that met the quality criteria of Venezuelan health and safety regulations. 91.5% of the samples analyzed were positive for G. intestinalis (average: 36.6 cyst/100g), 95.3% for C parvum (average: 32.8 oocyst/100g), 100% for E coli F + bacteriophages (average: 2.8 x 103 FPFU/100g) and 71.5% for E. coli (average: 4.3 x 104 MPN/g). Results of this research indicate that shrimp can become a vehicle for transmitting pathogens to humans and demonstrate the need for including a parasitic and viral parameter in microbiological quality control for seafood.
Subject(s)
Animals , Bacteriophages/pathogenicity , Food Contamination/analysis , Giardia lamblia/parasitology , Palaemonidae/microbiology , Palaemonidae/parasitology , Pandalidae/microbiology , Pandalidae/parasitology , Penaeidae/microbiology , Penaeidae/parasitology , Seafood/analysis , Commerce , Pollution Indicators/analysis , Pollution Indicators/methodsABSTRACT
The giant freshwater prawn Macrobrachium rosenbergii was injected with an inoculum containing LD, 96 hr dose of 10' Pseudomonas aeruginosa (MTCC 1688) to determine the histopathological effects in vivo. The comparison of tissues of both the control and the bacterial endotoxin treated prawns after 96 hr revealed significant degenerative changes in treated prawns. Both light microscopic and electron microscopic observations revealed the infiltration of the tissues of Pseudomonas sp in the muscular and hepatopancreatic tissues of prawn. The muscular tissue changes in the myofibrillar arrangement with blockage at the gap junctions and necrotic lesions were observed. The hepatopancreatic cells were vacuolated with hypertrophied nucleus. Atrophy of hepatopancreatic tubules was conspicuous. The pathogenicity of Pseudomonas aeruginosa is attributed to its infiltration and multiplication inside the tissues and the consequent release of extra-cellular enzymes for its metabolism. The degeneration of host tissues is also attributed to the latter.