Your search keyword '"Fabrizio Anniballi"' showing total 7 results

1. Infant Botulism: Checklist for Timely Clinical Diagnosis and New Possible Risk Factors Originated from a Case Report and Literature Review

Author

Robertino Dilena, Mattia Pozzato, Lucia Baselli, Giovanna Chidini, Sergio Barbieri, Concetta Scalfaro, Guido Finazzi, Davide Lonati, Carlo Alessandro Locatelli, Alberto Cappellari, and Fabrizio Anniballi

Subjects

infant botulism, hypogammaglobulinemia, cytomegalovirus, diagnosis, risk factor, diagnostic criteria, Medicine

Abstract

Infant botulism is a rare and underdiagnosed disease caused by BoNT-producing clostridia that can temporarily colonize the intestinal lumen of infants less than one year of age. The diagnosis may be challenging because of its rareness, especially in patients showing atypical presentations or concomitant coinfections. In this paper, we report the first infant botulism case associated with Cytomegalovirus coinfection and transient hypogammaglobulinemia and discuss the meaning of these associations in terms of risk factors. Intending to help physicians perform the diagnosis, we also propose a practical clinical and diagnostic criteria checklist based on the revision of the literature.

Published

2021

2. Detection of Active BoNT/C and D by EndoPep-MS Using MALDI Biotyper Instrument and Comparison with the Mouse Test Bioassay

Author

Ilenia Drigo, Elena Tonon, Simone Pascoletti, Fabrizio Anniballi, Suzanne R. Kalb, and Luca Bano

Subjects

Clostridium botulinum, BoNT/C, BoNT/D, BoNT/CD, BoNT/DC, MALDI Biotyper, Medicine

Abstract

Botulinum neurotoxins (BoNTs) are among the most poisonous known biological substances, and therefore the availability of reliable, easy-to use tools for BoNT detection are important goals for food safety and human and animal health. The reference method for toxin detection and identification is the mouse bioassay (MBA). An EndoPep-MS method for BoNT differentiation has been developed based on mass spectrometry. We have validated and implemented the EndoPep-MS method on a Bruker MALDI Biotyper for the detection of BoNT/C and D serotypes. The method was extensively validated using experimentally and naturally contaminated samples comparing the results with those obtained with the MBA. Overall, the limit of detection (LoD) for both C and D toxins were less than or equal to two mouse lethal dose 50 (mLD50) per 500 µL for all tested matrices with the exception of feces spiked with BoNT/C which showed signals not-related to specific peptide fragments. Diagnostic sensitivity, specificity and positive predictive value were 100% (95% CI: 87.66–100%), 96.08% (95% CI: 86.54–99.52%), and 93.33% (95% CI: 78.25–98.20%), respectively, and accuracy was 97.47% (95% CI: 91.15–99.69%). In conclusion, the tests carried out showed that the EndoPep-MS method, initially developed using more powerful mass spectrometers, can be applied to the Bruker MALDI Biotyper instrument with excellent results including for detection of the proteolytic activity of BoNT/C, BoNT/D, BoNT/CD, and BoNT/DC toxins.

Published

2020

3. Adult Intestinal Toxemia Botulism

Author

Richard A. Harris, Fabrizio Anniballi, and John W. Austin

Subjects

clostridium botulinum, clostridium butyricum, clostridium baratii, botulism, botulinum toxin, intestinal toxemia, Medicine

Abstract

Intoxication with botulinum neurotoxin can occur through various routes. Foodborne botulism results after consumption of food in which botulinum neurotoxin-producing clostridia (i.e., Clostridium botulinum or strains of Clostridium butyricum type E or Clostridium baratii type F) have replicated and produced botulinum neurotoxin. Infection of a wound with C. botulinum and in situ production of botulinum neurotoxin leads to wound botulism. Colonization of the intestine by neurotoxigenic clostridia, with consequent production of botulinum toxin in the intestine, leads to intestinal toxemia botulism. When this occurs in an infant, it is referred to as infant botulism, whereas in adults or children over 1 year of age, it is intestinal colonization botulism. Predisposing factors for intestinal colonization in children or adults include previous bowel or gastric surgery, anatomical bowel abnormalities, Crohn’s disease, inflammatory bowel disease, antimicrobial therapy, or foodborne botulism. Intestinal colonization botulism is confirmed by detection of botulinum toxin in serum and/or stool, or isolation of neurotoxigenic clostridia from the stool, without finding a toxic food. Shedding of neurotoxigenic clostridia in the stool may occur for a period of several weeks. Adult intestinal botulism occurs as isolated cases, and may go undiagnosed, contributing to the low reported incidence of this rare disease.

Published

2020

4. Historical Perspectives and Guidelines for Botulinum Neurotoxin Subtype Nomenclature

Author

Michael W. Peck, Theresa J. Smith, Fabrizio Anniballi, John W. Austin, Luca Bano, Marite Bradshaw, Paula Cuervo, Luisa W. Cheng, Yagmur Derman, Brigitte G. Dorner, Audrey Fisher, Karen K. Hill, Suzanne R. Kalb, Hannu Korkeala, Miia Lindström, Florigio Lista, Carolina Lúquez, Christelle Mazuet, Marco Pirazzini, Michel R. Popoff, Ornella Rossetto, Andreas Rummel, Dorothea Sesardic, Bal Ram Singh, and Sandra C. Stringer

Subjects

botulinum, botulism, neurotoxins, subtypes, Clostridium botulinum, guidelines, nomenclature, Medicine

Abstract

Botulinum neurotoxins are diverse proteins. They are currently represented by at least seven serotypes and more than 40 subtypes. New clostridial strains that produce novel neurotoxin variants are being identified with increasing frequency, which presents challenges when organizing the nomenclature surrounding these neurotoxins. Worldwide, researchers are faced with the possibility that toxins having identical sequences may be given different designations or novel toxins having unique sequences may be given the same designations on publication. In order to minimize these problems, an ad hoc committee consisting of over 20 researchers in the field of botulinum neurotoxin research was convened to discuss the clarification of the issues involved in botulinum neurotoxin nomenclature. This publication presents a historical overview of the issues and provides guidelines for botulinum neurotoxin subtype nomenclature in the future.

Published

2017

5. Adult Intestinal Toxemia Botulism

Author

Fabrizio Anniballi, Richard A. Harris, and John W. Austin

Subjects

Adult, Health, Toxicology and Mutagenesis, Toxemia, lcsh:Medicine, clostridium botulinum, Review, Toxicology, medicine.disease_cause, Microbiology, Wound Botulism, 03 medical and health sciences, Clostridium botulinum, Medicine, Humans, Botulism, botulinum toxin, Clostridium butyricum, Clostridium baratii, 030304 developmental biology, 0303 health sciences, biology, clostridium butyricum, botulism, 030306 microbiology, business.industry, Infant Botulism, lcsh:R, biology.organism_classification, medicine.disease, Botulinum toxin, Gastrointestinal Microbiome, Intestinal Diseases, intestinal toxemia, Foodborne Botulism, business, clostridium baratii, medicine.drug

Abstract

Intoxication with botulinum neurotoxin can occur through various routes. Foodborne botulism results after consumption of food in which botulinum neurotoxin-producing clostridia (i.e., Clostridium botulinum or strains of Clostridium butyricum type E or Clostridium baratii type F) have replicated and produced botulinum neurotoxin. Infection of a wound with C. botulinum and in situ production of botulinum neurotoxin leads to wound botulism. Colonization of the intestine by neurotoxigenic clostridia, with consequent production of botulinum toxin in the intestine, leads to intestinal toxemia botulism. When this occurs in an infant, it is referred to as infant botulism, whereas in adults or children over 1 year of age, it is intestinal colonization botulism. Predisposing factors for intestinal colonization in children or adults include previous bowel or gastric surgery, anatomical bowel abnormalities, Crohn’s disease, inflammatory bowel disease, antimicrobial therapy, or foodborne botulism. Intestinal colonization botulism is confirmed by detection of botulinum toxin in serum and/or stool, or isolation of neurotoxigenic clostridia from the stool, without finding a toxic food. Shedding of neurotoxigenic clostridia in the stool may occur for a period of several weeks. Adult intestinal botulism occurs as isolated cases, and may go undiagnosed, contributing to the low reported incidence of this rare disease.

Published

2020

6. Infant Botulism: Checklist for Timely Clinical Diagnosis and New Possible Risk Factors Originated from a Case Report and Literature Review

Author

Alberto Cappellari, Carlo Locatelli, Concetta Scalfaro, Giovanna Chidini, Fabrizio Anniballi, Mattia Pozzato, Sergio Barbieri, Robertino Dilena, Davide Lonati, Guido Finazzi, and Lucia Baselli

Subjects

infant botulism, Male, medicine.medical_specialty, hypogammaglobulinemia, cytomegalovirus, diagnosis, risk factor, diagnostic criteria, Health, Toxicology and Mutagenesis, Congenital cytomegalovirus infection, Cytomegalovirus, Disease, Toxicology, Article, Transient Hypogammaglobulinemia, Hypogammaglobulinemia, Agammaglobulinemia, Risk Factors, Clostridium botulinum, medicine, Humans, Risk factor, Intensive care medicine, Coinfection, business.industry, Infant Botulism, Infant, Botulism, medicine.disease, Checklist, Cytomegalovirus Infections, Medicine, business

Abstract

Infant botulism is a rare and underdiagnosed disease caused by BoNT-producing clostridia that can temporarily colonize the intestinal lumen of infants less than one year of age. The diagnosis may be challenging because of its rareness, especially in patients showing atypical presentations or concomitant coinfections. In this paper, we report the first infant botulism case associated with Cytomegalovirus coinfection and transient hypogammaglobulinemia and discuss the meaning of these associations in terms of risk factors. Intending to help physicians perform the diagnosis, we also propose a practical clinical and diagnostic criteria checklist based on the revision of the literature.

Published

2021

7. Detection of Active BoNT/C and D by EndoPep-MS Using MALDI Biotyper Instrument and Comparison with the Mouse Test Bioassay

Author

Simone Pascoletti, Elena Tonon, Fabrizio Anniballi, Luca Bano, Suzanne R. Kalb, and Ilenia Drigo

Subjects

Botulinum Toxins, Biological substances, Health, Toxicology and Mutagenesis, BoNT/C, lcsh:Medicine, BoNT/D, Toxicology, medicine.disease_cause, Sensitivity and Specificity, Median lethal dose, Article, Antibodies, Mass Spectrometry, Mice, 03 medical and health sciences, Mouse bioassay, Limit of Detection, MALDI Biotyper, Clostridium botulinum, medicine, Animals, Bioassay, BoNT/CD, 030304 developmental biology, Detection limit, 0303 health sciences, Chromatography, Animal health, 030306 microbiology, Chemistry, lcsh:R, Toxin detection, Biological Assay, BoNT/DC

Abstract

Botulinum neurotoxins (BoNTs) are among the most poisonous known biological substances, and therefore the availability of reliable, easy-to use tools for BoNT detection are important goals for food safety and human and animal health. The reference method for toxin detection and identification is the mouse bioassay (MBA). An EndoPep-MS method for BoNT differentiation has been developed based on mass spectrometry. We have validated and implemented the EndoPep-MS method on a Bruker MALDI Biotyper for the detection of BoNT/C and D serotypes. The method was extensively validated using experimentally and naturally contaminated samples comparing the results with those obtained with the MBA. Overall, the limit of detection (LoD) for both C and D toxins were less than or equal to two mouse lethal dose 50 (mLD50) per 500 &micro, L for all tested matrices with the exception of feces spiked with BoNT/C which showed signals not-related to specific peptide fragments. Diagnostic sensitivity, specificity and positive predictive value were 100% (95% CI: 87.66&ndash, 100%), 96.08% (95% CI: 86.54&ndash, 99.52%), and 93.33% (95% CI: 78.25&ndash, 98.20%), respectively, and accuracy was 97.47% (95% CI: 91.15&ndash, 99.69%). In conclusion, the tests carried out showed that the EndoPep-MS method, initially developed using more powerful mass spectrometers, can be applied to the Bruker MALDI Biotyper instrument with excellent results including for detection of the proteolytic activity of BoNT/C, BoNT/D, BoNT/CD, and BoNT/DC toxins.

Published

2020