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Books on the topic 'Microsporea'

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Author: Grafiati

Published: 26 July 2024

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1

Murray, Wittner, and Weiss Louis M, eds. The microsporidia and microsporidiosis. Washington, D.C: ASM Press, 1999.

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2

1938-, Margulis Lynn, McKhann Heather I, and Olendzenski Lorraine, eds. Illustrated glossary of protoctista: Vocabulary of the algae, apicomplexa, ciliates, foraminifera, microspora, water molds, slime molds, and the other protoctists. Boston: Jones and Bartlett Publishers, 1993.

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3

Wilson, G. G. A comparison of the effects of Nosema fumiferanae and a Nosema sp. (microsporida) on Choristoneura fumiferana (Clem.) and Choristoneura pinus pinus Free. Sault Ste. Marie, Ont: Forest Pest Management Institute, 1986.

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4

Wilson, G. G. Observations on the level of infection and intensity of Nosema fumiferanae (microsporida) in two different field populations of the spruce budworm, Choristoneura fumiferana. Sault Ste. Marie, Ontario: Forest Pest Management Institute, 1987.

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5

Weiss, Louis M., and Murray Wittner. Microsporidia and Microsporidiosis. Wiley & Sons, Limited, John, 2014.

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6

Cryptosporidiosis and Microsporidiosis (Contributions to Microbiology). S. Karger AG (Switzerland), 2000.

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7

Stephen, Blackmore, and Knox R. Bruce, eds. Microspores: Revolution and ontogeny. London: Academic, 1990.

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8

Microspores Evolution and Ontogeny. Elsevier, 1990. http://dx.doi.org/10.1016/c2009-0-03229-2.

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9

Blackmore, S. Microspores: Evolution and Ontogeny. Academic Pr, 1991.

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10

Blackmore, S., and R. B. Knox. Microspores Evolution and Ontogeny: Evolution and Ontogeny. Elsevier Science & Technology Books, 2016.

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11

Nägeli, Michael. Isolated microspore culture of maize (Zea mays L.). 1998.

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12

Redha, Amina. Introduction and analysis of chromosome doubling of microspore derived wheat haploids. 1998.

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13

Kreir, Julius. Babesia, Theileria, Myxosporida, Microsporida, Bartonellaceae, Anaplasmataceae, Ehrlichia, and Pneumocystis. Elsevier Science & Technology Books, 2012.

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14

Weiss, Louis M. Microsporidiosis. Oxford University Press, 2011. http://dx.doi.org/10.1093/med/9780198570028.003.0056.

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The class or order Microsporidia was elevated in to the phylum Microspora by Sprague and Vavra (1997) and Sprague and Becnel (1998) subsequently suggested that the term Microsporidia instead be used for the phylum name. Miicrosporidia, i.e. Nosema bombycis, were first described about 150 years ago as the cause of the disease pebrine in silkworms. In 1922, there were descriptions of gram-positive spores consistent with microspordiosis in the brain of rabbits that were being used for investigations on poliomyelitis (Wright and Craighead 1922). From 1923 to 1926, Levaditi and colleagues studied the organisms seen by Wright and Craighead, which they named Encephalitozoon cuniculi, recognizing them as Microsporidia and demonstrating their lack of host specificity by transmitting infections from rabbits to mice, rats and dogs (Levaditi et al. 1923). Microsporidia were clearly confirmed of being a cause of human disease in 1959 (Matsubayashi et al. 1959), when they were isolated from the cerebrospinal fluid of a 9 year old boy with encephalitis with seizures, coma, and fever lasting about 25 days. Bergquist et al. (1984) reported a 2 year old child with encephalitis and seizures who had Encephalitozoon spores in urine and Margileth et al. (1973) isolated the microsporidium Anncaliia (Nosema) connori from a 4 month old athymic male infant who died with severe diarrhoea and malabsorption. Microsporidia can produce a wide range of clinical diseases. A diarrhoeal syndrome associated with microsporidiosis and HIV infection was reported by Desportes et al. (1985) and the number of articles describing human disease increased rapidly after 1990. In addition to gastrointestinal tract involvement, it has been recognized that Microsporidia can infect virtually any organ system; and patients with encephalitis, ocular infection, sinusitis, myositis, and disseminated infection are well described in the literature.

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15

Mignon, B., and M. Monod. Zoonotic infections with dermatophyte fungi. Oxford University Press, 2011. http://dx.doi.org/10.1093/med/9780198570028.003.0077.

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Dermatophytes are highly specialized pathogenic fungi which are the most common agents of superficial mycoses. These fungi grow exclusively in the stratum corneum, nails or hair utilising them as sole nitrogen and carbon sources. Dermatophyte species are recognized and classified as antropophilic, zoophilic, or geophilic, depending on their major reservoir in nature (humans, animals, and soil, respectively). Zoophilic dermatophytes may result in zoonoses when humans are exposed to these organisms and dermatophytosis is considered to be one of the most common zoonotic diseases. The majority of zoonotic dermatophytoses are caused by four species: Microsporum canis (usually derived from pet animals, particularly cats and dogs), Trichophyton verrucosum (usually derived from cattle), Arthroderma vanbreuseghemii (usually derived from cats and dogs) and Arthroderma benhamiae (usually derived from guinea-pigs). Infection results most often from direct contact with an infected animal, but may be also acquired indirectly through contact with a contaminated environment. While clinical disease is rarely serious, the lesions can result in disfigurement and pain. Diagnosis is based on history, clinical appearance and diagnostic procedures, e.g. direct microscopic examination of scales, hair or nail and fungal culture. Specific treatment is generally required to resolve lesions, and this may be prolonged depending on the fungal species and the host status. Identifying animals as the source of infection for people can help in the prevention of recurrence or new infections, especially in children, by adequately treating affected pets and their environments. Immunoprophylaxis is an attractive means of controlling infection in animals, and the development and widespread use of efficacious T. verrucosum vaccines in certain countries has already proved valuable in the management of cattle ringworm.

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16

(Editor), José-Luis Avila, and J. Robin Harris (Editor), eds. Intracellular Parasites (Subcellular Biochemistry). Springer, 1992.

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