E H Stephenson scite author profile

Previous studies suggested that the most frequent means of transmission of Lassa virus was by either direct or indirect contact with infectious material. Aerosol stability and respiratory infectivity of the Josiah strain of Lassa virus were assessed to determine the effect of environmental factors on aerosol-induced infection. The stability of the virus in aerosol, particularly at low relative humidity (30% RH), plus the ability of the virus to infect guinea pigs and monkeys via the respiratory route emphasize the potential for aerosol transmission of Lassa virus. Biological half-lives at both 24 and 32 degrees C ranged from 10.1 to 54.6 min, and were sufficient for aerosol dispersion of virus to considerable distances in natural situations. Infectivity of Lassa virus in small particle aerosol was demonstrated in outbred guinea pigs and cynomolgus monkeys using dynamic aerosol equipment. Monkeys exposed to inhaled doses to 465 PFU were infected and died. The median infectious dose (ID50) for guinea pigs was 15 PFU, yet a definitive median lethal aerosol dose (LD50) could not be established. Organ tropism of aerosol-induced Lassa virus infections in outbred guinea pigs was similar to that previously reported for inbred guinea pigs infected by subcutaneous inoculation.

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Animal Models in Q Fever: Pathological Responses of Inbred Mice to Phase I Coxiella burnetii

Scott

Williams²,

Stephenson³

1987

Microbiology

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The susceptibility of inbred strains of mice to infection by phase I Coxiella burnetii, the aetiological agent of Q fever, was investigated by evaluating morbidity, mortality, antibody production and in vitro proliferative responses of splenic lymphocytes. Among the 47 strains of mice tested for morbidity and mortality to C. burnetii infection, 33 were resistant, 10 were of intermediate sensitivity, and four were sensitive. A/J mice exhibited the highest mortality, and surviving mice of this strain yielded high concentrations of viable rickettsiae from essentially all organs for more than 3 weeks after inoculation. However, A/J mice developed a protective immune response after vaccination with inactivated C. burnetii cells. Induction of gross pathological responses and antibody production were similar in sensitive mice (strain A/J) and resistant mice (strain C57BL/6J). The LD50 of phase I C. burnetii for A/J mice was about 1000-fold lower than that for the more resistant C57BL/6J mice. Mice of both strains developed antibody titres against phase I cells, phase II cells, and phase I lipopolysaccharide after the injection of one or more viable phase I organisms of C. burnetii; five or more rickettsiae caused splenomegaly that was almost proportional to the infecting dose. Suppression of in vitro proliferative responses of splenic lymphocytes to concanavalin A, a T-cell mitogen, was apparent after infection of sensitive A/J mice with as few as one to five phase I micro-organisms. However, suppression of proliferation of splenic lymphocytes from resistant C57BL/6J mice required 10(7) phase I C. burnetii.

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Genetic Heterogeneity among Isolates of Coxiella burnetii

1986

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Chromosomal and plasmid DNA have been extracted from six isolates of Coxiella burnetii, the aetiological agent of Q fever. Restriction fragment length polymorphisms detected after HaeIII digestions of chromosomal DNA revealed four different patterns that distinguished the American from the European isolates, and the Nine Mile phase I prototype strain from a spontaneously derived, isogenic phase II nonrevertant variant. At least one of the HaeIII fragments visible in the pattern from Nine Mile phase I and not in that from Nine Mile phase II could not be detected by DNA-DNA hybridization, and thus may have been deleted during the phase transition. Comparison of Nine Mile phase II, which does not survive animal passage, with Grita M44 phase II, which does, indicated that the HaeIII fragment was present in the Grita strain. These results suggest that this HaeIII fragment may be concerned with functions necessary to survive the cellular immune response in vivo. Isolates from two human endocarditis cases showed the greatest divergence from all the other isolates, having at least five fragments of unique mobility in the HaeIII digestion pattern of their chromosomal DNA. Also, a plasmid obtained from these two isolates was 2 to 3 kb larger than the plasmid present in the other five isolates, and its restriction pattern could be distinguished from that of the other plasmids by several endonucleases. Detection of chromosomal and plasmid restriction fragment length polymorphisms among strains of phase I or phase II C. burnetii from various geographical locations and environmental sources will facilitate Q fever diagnosis and strain identification.

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Aerosol Transmission of Hantaan and Related Viruses to Laboratory Rats

Nuzum¹,

Rossi

Stephenson³

et al. 1988

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Hantaan. Seoul. and Puumala viruses were transmitted to 12-16-week-old female Wistar Rattus norvegicits by inhalation. The rodent infectious dose for each virus by intramuscular inoculation and by inhalation was determined, as was the infectious dose for Vero E-6 cells by direct piaque assay. Hantaan (HTN). Seoul (SEO), and Puumala routes of inoculation, aerosol exposure was not (PUt1) viruses are members of the family Bun-evaluated. Consequently, there is little direct Cviyaviridae. in the proposed genus llantavirus.' dence that establishes aerosol transmission of They are responsible for human disease ranging these viruses. This study was designed to deterin severity from subclinical to hemorrhagic dis-mine the possibility of aerosol transmission of 3 orders collectively referred to as hemorrhagic fe-hantaviruses to laboratory rats. Additionally. we ver with renal syndrome (HFRS). Natural hosts compared rat sensitivity to intramuscular (im) for HTN, PUU, and SEO viruses ark striped field and aerosol routes of infection. I mice. ,4podemus airarius. bank voles. (lethrionom's glare,. and domestic rats. Rattits not-MATERIALS AND METHODS vegi,. i respecti\ ely.

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Pathogenesis of Infection with Rickettsia rickettsii in the Dog: A Disease Model for Rocky Mountain Spotted Fever

Keenan

Ruhles

Huxsoll

et al. 1977

Journal of Infectious Diseases

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Dogs inoculated with Rickettsia rickettsii developed a clinical syndrome ranging in severity from a mild febrile exanthema to death within six days after inoculation. The severity of the disease appeared to be dose-related, and the signs were comparable to R. rickettsii infection in humans on a clinical and hematological basis. Dogs were rickettsemic for 10 to 14 days after infection. In most animals the level of rickettsemia was greater than or equal to 10(2.5) guinea pig intraperitoneal 50% infectious doses (GPID50). Infected dogs responded serologically as determined by indirect fluorescent antibody methods and were protected when challenged six to 12 months later with 10(7.0) GPID50 of the homologous strain of R. rickettsii. The monocyte culture technique was successfully used for the detection of rickettsemia, and the results compared favorably with those obtained by the guinea pig inoculation method of isolation.

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E H Stephenson

Effect of environmental factors on aerosol‐induced lassa virus infection

Animal Models in Q Fever: Pathological Responses of Inbred Mice to Phase I Coxiella burnetii

Genetic Heterogeneity among Isolates of Coxiella burnetii

Aerosol Transmission of Hantaan and Related Viruses to Laboratory Rats

Pathogenesis of Infection with Rickettsia rickettsii in the Dog: A Disease Model for Rocky Mountain Spotted Fever

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