S. Murmu scite author profile

S. Murmu

3Publications

44Citation Statements Received

49Citation Statements Given

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Affiliations

West Bengal University of Animal and Fishery Sciences

Publications

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Detection and characterization of pathogenic Pseudomonas aeruginosa from bovine subclinical mastitis in West Bengal, India

Banerjee¹,

Batabyal²,

Joardar³

et al. 2017

Vet World

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Aim:Subclinical mastitis in bovines is mainly responsible for the huge economic loss of the dairy farmers, of which Pseudomonas aeruginosa is one of the causative agents. The study was aimed at a screening of suspected milk samples from different cattle farms of West Bengal for detection and confirmation of P. aeruginosa strains followed by their characterization.Materials and Methods:Around 422 milk samples were screened from different dairy farms primarily by on-spot bromothymol blue (BTB) test and then in the lab by somatic cell counts (SCC) to finally consider 352 samples for detection of P. aeruginosa. Selective isolation and confirmation of the isolates were done using selective media, viz., cetrimide and Pseudomonas agar followed by confirmation by fluorescent technique. Molecular characterization of the strains was done by polymerase chain reaction for the presence of toxA (enterotoxin A, 352 bp) and exoS (exoenzyme S, 504 bp) genes.Results:Approximately, 371 (87.9%) samples were positive in on-spot BTB test among which 352 (94.8%) samples revealed high SCC values (more than 3 lakh cells/ml) showing infection when screened. Among these, 23 (6.5%) samples yielded typical Pseudomonas sp. isolates out of which only 19 (5.4%) isolates were confirmed to be P. aeruginosa which showed characteristic blue-green fluorescence due to the presence of pigment pyoverdin under ultraviolet light. Out of these 19 isolates, 11 isolates were positive for toxA, 6 isolates for exoS, and 2 for both these pathogenic genes.Conclusion:Approximately, 5.4% cases of bovine subclinical mastitis infections in South Bengal were associated with P. aeruginosa which possess pathogenic genes such as toxA (63.2%) and exoS (36.8%).

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Detection and characterization of zoonotic dermatophytes from dogs and cats in and around Kolkata

Murmu¹,

Debnath²,

Pramanik³

et al. 2015

Vet. World

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Aim:The ringworms of pet dogs, cats, and stray animals (dogs, cats, and other animals) could be a potential source of zoonotic infections causing a serious public health problem in the busy city Kolkata. The pet owners are more susceptible to get this infection from their pets, because of the close contact with them as dermatophytosis is very much prevalent in those pets. So, this study was aimed to check the prevalence of dermatophytosis in dogs, cats, and in pet owners.Materials and Methods:A total of 362 clinically suspected cases of dermatophytosis from dogs (123 in number), cats (202 in number), and human beings (37 in number) were collected and studied from in and around Kolkata to detect the presence of significant dermatophytes. Direct microscopy and cultural examination of the isolates were performed following standard methodology. Identification and characterization of the isolates were done by different biochemical tests.Results:Samples (n=285) having significant dermatophytic fungal infections were found to be of highest number in cats (158, 55.5%) than in dogs (108, 37.8%) and humans (19, 6.7%), respectively. The incidence of Microsporum canis (60.0%) was the highest from affecting dogs, cats, and human beings in comparison to Microsporum gypseum (22.5%), Trichophyton mentagrophytes (15.8%) and Trichophyton rubrum (1.7%). Detection of T. rubrum was only from human cases in this study, whereas the presence of rest three were slightly higher in cats than that of the dogs and humans in this present study. The incidences were higher in young animals and in humans of the age group of 21-30 years, during the rainy season (from April to August) and also in in-contact human beings.Conclusion:M. canis was the most commonly pathogen among all causing dermatophytosis in animals and also in the pet owners. M. gypseum and T. mentagrophytes were other pathogens associated with these infections. These infections were more prevalent in the rainy seasons and in in-contact human patients or pet owners.

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Characterization and anti-fungal susceptibility pattern of dermatophytes isolated from dogs, cats and pet owners in and around Kolkata, India

Batabya

Murmu

Debnath

et al. 2016

IJAR

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Pet animals mostly suffer from dermatophytic infections and these animals can easily transmit the infection to their handlers or pet owners. Study of 362 clinically suspected cases of dermatophytic infections collected mainly from dogs (n=123), cats (n=202) and few pet owners (n=37) in and around Kolkata, was conducted to detect a total of 285 (78.7%) samples to be positive for significant dermatophytic fungal infections, with cats to be the highest in prevalence (55.4%) followed by dogs (37.9%) and human beings (6.7%) respectively. Microsporum canis (60.0%) was the most prevalent pathogen in comparison to M. gypseum (22.5%), Trychophyton mentagrophytes (15.8%) and T. rubrum (1.7%) affecting dogs, cats and human beings. T. rubrum was detected only from human cases in this study. Male dogs (58.3%), cats (51.3%) and human patients (78.9%) were mostly infected than the female ones. The anti-fungal susceptibility pattern of these isolates revealed lower MIC50 values of 0.06-0.125µg/ml for Ketoconazole, Itraconazole, Miconazole, and Amphotericin-B but not for Fluconazole (8-16µg/ml). The MIC90 values of these antifungal agents were as low as 0.03µg/ml for all drugs except Fluconazole (32µg/ml).

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S. Murmu

Detection and characterization of pathogenic Pseudomonas aeruginosa from bovine subclinical mastitis in West Bengal, India

Detection and characterization of zoonotic dermatophytes from dogs and cats in and around Kolkata

Characterization and anti-fungal susceptibility pattern of dermatophytes isolated from dogs, cats and pet owners in and around Kolkata, India

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