L M McCroskey scite author profile

Cases of adult botulism (n = 309) were studied to identify clinical differences between toxin types and to evaluate the sensitivity of diagnostic laboratory testing. Patients with illness from type E toxin had the shortest incubation periods. Sporadic case-patients were more severely ill: 85% required intubation compared with only 42% in multiperson outbreaks. Of patients with type A botulism, 67% required intubation compared with 52% with type B and 39% with type E. Toxin testing was positive for 40%-44% of serum and stool specimens obtained within 3 days of toxin ingestion and for 15%-23% of specimens obtained thereafter, while 37% of stool specimens obtained > 3 days after toxin ingestion were positive by culture. Patients with type A botulism have more severe illness. In general, specimens obtained early are more likely to be positive by toxin assay, and stool cultures are more sensitive than toxin detection for specimens obtained later in the illness.

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Two Cases of Type E Infant Botulism Caused by Neurotoxigenic Clostridium butyricum in Italy

Aureli

Fenicia

Pasolini

et al. 1986

Journal of Infectious Diseases

230

116

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The first two confirmed cases of type E infant botulism occurred in two 16-week-old girls in Rome, Italy. The original diagnosis for the first patient was intestinal blockage due to an ileocecal invagination, which was treated surgically. Postoperatively, the patient became unresponsive and required ventilatory assistance. A diagnosis of infant botulism was then made. The second infant presented to the same hospital 7 1/2 months later with profound weakness, hypotonicity, mydriasis, and areflexia. This case was recognized as possible botulism at admission. Both cases were confirmed by detection and identification of type E botulinal toxin in stool specimens and in enrichment cultures of those specimens. The toxigenic organisms isolated were quite different from Clostridium botulinum type E. The apparent causative organism in each case resembles Clostridium butyricum but produces a neurotoxin that is indistinguishable from type E botulinal toxin by its effects on mice and by its neutralization with type E botulinal antitoxin.

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Genetic Homogeneity of Clostridium botulinum Type A1 Strains with Unique Toxin Gene Clusters

Raphael

Lúquez

McCroskey

et al. 2008

Appl Environ Microbiol

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Isolation of an organism resembling Clostridium barati which produces type F botulinal toxin from an infant with botulism

Hall¹,

McCroskey²,

Pincomb³

et al. 1985

J Clin Microbiol

232

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All reported casçs of infant botulism except one have been caused by proteolytic strains (group I) of Clostridium botulinum, toxin types A or B. We describe the cultural and biochemical characteristics of the causative organism of this singular case of infant botulism, caused by type F botulinal toxin. Although this organism produces type F botulinal toxin, it is quite different from proteolytic (group 1) C. botulinum, being more closely related to Clostridium barati.

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Characterization of an organism that produces type E botulinal toxin but which resembles Clostridium butyricum from the feces of an infant with type E botulism

McCroskey¹,

Hatheway²,

Fenicia³

et al. 1986

J Clin Microbiol

171

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The apparent causative organism from the only reported case of type E infant botulism was isolated and characterized. Except for its ability to produce type E botulinal toxin, this organism (strain 5262) would be unquestionably identified as Clostridium butyricum. This is the second time an organism resembling a defined Clostridium species other than a member of the C. botulinum group has been implicated in infant botulism. In the 9 years since infant botulism was first described, more than 400 cases have been reported.

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Type F botulism due to neurotoxigenic Clostridium baratii from an unknown source in an adult

et al. 1991

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Type F botulism was confirmed in a 54-year-old male with signs compatible with botulism who reported to the emergency unit of a hospital. Botulinal neurotoxin was detected in the patient's serum and fecal specimens, and a neurotoxigenic organism whose physiologic characteristics correspond to those of Clostridium baratii was isolated. The toxin produced by the isolate was neutralized by type F botulinal antitoxin and cross-neutralized with lower efficiency by type E antitoxin. The patient's food history was not suggestive of botulism, and it seems likely that the illness was due to colonization of the gut.

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Detection and differentiation of Clostridium botulinum type A strains using a focused DNA microarray

Raphael

Joseph

McCroskey

et al. 2010

Molecular and Cellular Probes

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Selective medium for isolation of Clostridium botulinum from human feces

Dezfulian¹,

McCroskey²,

Hatheway³

et al. 1981

J Clin Microbiol

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A selective medium, Clostridium botulinum isolation (CBI) agar, was developed for the isolation of C. botulinum from human feces. This medium contains cycloserine (250 ,ug/ml), sulfamethoxazole (76 ytg/ml), and trimethoprim (4 gg/ ml) as selective inhibitory agents. Qualitative tests indicated complete recovery of C. botulinum types A, B, F, and G on CBI medium. It was more difficult to recognize type G colonies on the medium because of their lack of lipase activity. Except for a few species of Clostridium, the growth of other obligate anaerobes and of the facultative anaerobes tested on CBI medium was suppressed. Quantitative studies of C. botulinum on the selective medium yielded counts comparable to those obtained on egg yolk agar control plates. Isolation of C. botulinum types A, B, and F from seeded fecal specimens was easily achieved with CBI medium. The use of CBI agar should aid the rapid isolation of C. botulinum from fecal specimens associated with foodborne and infant botulism.

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L M McCroskey

Clinical and Laboratory Comparison of Botulism from Toxin Types A, B, and E in the United States, 1975-1988

Two Cases of Type E Infant Botulism Caused by Neurotoxigenic Clostridium butyricum in Italy

Genetic Homogeneity of Clostridium botulinum Type A1 Strains with Unique Toxin Gene Clusters

Isolation of an organism resembling Clostridium barati which produces type F botulinal toxin from an infant with botulism

Characterization of an organism that produces type E botulinal toxin but which resembles Clostridium butyricum from the feces of an infant with type E botulism

Type F botulism due to neurotoxigenic Clostridium baratii from an unknown source in an adult

Detection and differentiation of Clostridium botulinum type A strains using a focused DNA microarray

Selective medium for isolation of Clostridium botulinum from human feces

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