Kenneth Charlton scite author profile

Kenneth Charlton

5Publications

232Citation Statements Received

3Citation Statements Given

How they've been cited

312

216

How they cite others

Affiliations

Agriculture and Agri-Food Canada, Staffordshire University, Texas A&M University

Publications

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Spontaneous Listeric Encephalitis and Neuritis in Sheep

Charlton¹,

Jd²

1977

Vet Pathol

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Abstract. Sixteen of 17 sheep with spontaneous listeric encephalitis had neuritis characterized by diffuse and focal intrafascicular and perineural accumulations of lymphocytes, plasma cells, macrophages and neutrophils in one or more cranial nerves. Nine sheep had extensive trigeminal neuritis which was usually unilateral. Brain lesions were mainly in the stem and were foci of macrophages or neutrophils or both, malacia, neutrophilic neuronophagia, vascular cuffing, and meningitis. Lesions in the brain and trigeminal ganglia were most severe on the same side as the affected trigeminal nerve. Gram-positive bacilli were in proximal parts of cranial nerves in foci of inflammatory cells and occasionally in morphologically intact nerve fibers. Organisms in the brain were in phagocytes in areas of inflammation and in scattered neurons and axons. The results were consistent with centripetal migration of the infectious agent along one or more branches of the trigeminal nerve to the brain and dissemination in the brain stem occurring, at least partly, along fiber tracts. Intraaxonal movement of bacteria probably is a mechanism involved in the pathogenesis of this disease.Listeriosis in sheep may be manifested as abortion, neonatal septicemia, or neurologic disease. The neurologic syndrome (circling disease) occurs mainly as a sporadic encephalitis of adult sheep, is frequently fatal and rarely occurs concurrently with either of the other two syndromes.Listeric encephalitis in sheep is characterized by microabscesses, focal gliosis and perivascular cuffing. Although there are reports of a few cases of diffuse meningoencephalitis [20], the lesions usually are confined to the brain stem, especially the pons and medulla oblongata. This regional distribution is not consistent with a hematogenous route of infection [12], which usually results in disseminated lesions in the cerebrum as well as the brain stem. Focal invasion of brain parenchyma via a nonvascular route could explain partially the distribution. Lesions in the proximal parts of branches of the trigeminal nerve occur in the spontaneous disease in sheep, cattle and goats. It has been suggested that the infective organism reached the brain by migration along these nerves [1, 2,24]. Other studies in sheep did not show extensive inflammation of trigeminal nerves [5] and migration of infection along nerves was not considered likely. In addition, reports of isolation of Listeria monocytogenes from visceral organs of several sheep with spontaneous listeric 297

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The long incubation period in rabies: delayed progression of infection in muscle at the site of exposure

Charlton

Nadin-Davis

Casey

et al. 1997

Acta Neuropathologica

110

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The striped skunk (Mephitis mephitis) is a host of rabies in large areas of Canada and the United States. In each of two experiments, equal numbers of skunks in two groups were inoculated intramuscularly with low doses of a field strain of rabies virus (street rabies virus). In each experiment, skunks in one group surviving to 2 months were killed at this time and selected tissues were used for examination by the polymerase chain reaction (PCR) method or by immunohistochemistry for rabies antigen. Results of detailed examinations using PCR technology (experiment 1) indicated that muscle at the inoculation site contained viral RNA at 2 months postinoculation, when other relevant tissues on the route of viral migration and early entrance into the central nervous system were negative. The cellular location of virus/antigen, as determined immunohistochemically in experiment 2, was striated muscle fibers and fibrocytes. Our results indicate a major role of muscle (tissue) infection at the inoculation site in the long incubation period of rabies in skunks. These and related findings will be useful in rabies control and, if applicable to other species, will be relevant in postexposure treatment.

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Ineffectiveness and Comparative Pathogenicity of Attenuated Rabies Virus Vaccines for the Striped Skunk (Mephitis mephitis)

Rupprecht

Charlton²,

Artois

et al. 1990

Journal of Wildlife Diseases

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Skunk Rabies

Charlton¹,

Webster²,

Casey³

et al. 1988

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Experimental Rabies Infection of Non-nervous Tissues in Skunks (Mephitis mephitis) and Foxes (Vulpes vulpes)

Balachandran¹,

Charlton²

1994

Vet Pathol

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Abstract. Non-neural tissues, from three male and four female striped skunks (Mephitis mephitis), 5 to 7 months old, and one male and two female red foxes (Vulpes vulpes), 12 to 16 months old, experimentally infected with street rabies virus, were examined by light microscopic immunohistochemical and electron microscopic methods. This is the first report of ultrastructural lesions in rabies-infected adrenal medulla, cornea, and nasal glands. Using the streptavidin biotin peroxidase technique, antigen was detected in mucous cells and interstitial neurons and their processes in the submandibular salivary gland, in chromaffin cells of the adrenal medulla, in epidermal cells of the skin, in external root sheath cells of hair follicles, and in corneal epithelial cells. Electron microscopically, matrix (viral nucleocapsid), virions, and anomalous viral products were common in most tissues examined, but their relative proportions varied. The results suggested that replication with minimal accumulation of matrix and anomalous viral growth products was characteristic of growth in tissues (submandibular salivary gland) that frequently produce high titers of virus, whereas replication with large amounts of matrix and anomalous structures occurred in tissues (adrenal gland and nasal gland) that generally contained low or moderate titers of virus. Novel findings included viral budding into secretory granules, increase in microfilaments in infected mucogenic cells, and continuity of viral convoluted membranous profiles with rough endoplasmic reticulum of chromaffin cells and nasal glandular cells. The presence of viral antigen and developing virus in extra-neural tissues constitutes a potential risk of non-bite exposure to people in certain groups/occupations.

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