Vittorio Fisichella’s research while affiliated with University of Messina and other places

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Publications (2)


Individuals sampled.
Number of sampled individuals in the six study areas by species.
Antimicrobial Resistance in Physiological and Potentially Pathogenic Bacteria Isolated in Southern Italian Bats
  • Article
  • Full-text available

March 2023

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111 Reads

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2 Citations

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Vittorio Fisichella

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The spread of antimicrobial resistance is one of the major health emergencies of recent decades. Antimicrobial-resistant bacteria threaten not only humans but also populations of domestic and wild animals. The purpose of this study was to evaluate the distribution of antibiotic resistance (AMR) and multidrug resistance (MDR) in bacterial strains isolated from six Southern-Italian bat populations. Using the disk diffusion method, we evaluated the antimicrobial susceptibility of 413 strains of Gram-negative bacteria and 183 strains of Gram-positive bacteria isolated from rectal (R), oral (O) and conjunctival (C) swabs of 189 bats belonging to 4 insectivorous species (Myotis capaccinii, Myotis myotis, Miniopterus schreibersii and Rhinolophus hipposideros). In all bat species and locations, numerous bacterial strains showed high AMR levels for some of the molecules tested. In both Gram-negative and Gram-positive strains, the resistance patterns ranged from one to thirteen. MDR patterns varied significantly across sites, with Grotta dei Pipistrelli in Pantalica displaying the highest levels of MDR (77.2% of isolates). No significant differences were found across different bat species. Monitoring antibiotic resistance in wildlife is a useful method of evaluating the impact of anthropic pressure and environmental pollution. Our analysis reveals that anthropic contamination may have contributed to the spread of the antibiotic resistance phenomenon among the subjects we examined.

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Figure 2. Distribution of Gram-negative bacteria in different sampling locations. The percentage of isolates belonging to the 10 genera of Gram-negative bacteria most commonly occurring in our dataset is shown for 6 different sampling sites: Grotta dei Pipistrelli, SR (cyan), Grotta Palombara, SR (orange), Grotta Chiusazza, SR (blue), Grotta dei Pipistrelli, CS (pink), Grotta Burrò, CT (green), and Grave Grubbo, KR (yellow).
Individuals sampled.
The number of sampled individuals in the 6 study areas by species.
Comparison between the percentages of pathogenic strains isolated in different bat species and p-value of significant differences, calculated with the Fisher's exact test.
Cultivable Bacteria Associated with the Microbiota of Troglophile Bats

October 2022

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100 Reads

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2 Citations

Animals

Background: The study of bats is of significant interest from a systematic, zoogeographic, ecological, and physiological point of view. The aim of this study is to investigate the culturable aerobic enteric, conjunctival, and oral bacterial flora of bats to determine their physiological microbiome and to investigate the possible occurrence of pathogenic bacteria. Methods: Five hundred and sixty-seven samples were collected from 189 individuals of four species of troglophile bats (Myotis myotis, Myotis capaccinii, Miniopterus schreibersii, and Rhinolophus hipposideros) living in Sicilian and Calabrian territory (Italy). All samples were tested for Gram-negative bacteria; conjunctival and oral swabs were also submitted to bacteriological examination for Gram-positive bacteria. Results: Four hundred thirteen Gram-negative strains were isolated. Of these, 377 belonged to 17 different genera of the family Enterobacteriaceae and 30 to five other families. One hundred eighty-three Gram-positive strains were isolated. Of these, 73 belonged to the Staphylococcaceae family, 72 to the Bacillaceae family and 36 to four other families. Besides some potentially pathogenic strains, several bacterial species have been found that are common to all the bat species studied. These could perhaps play a physiological or nutritional role. Conclusion: A great variety of bacterial species were identified in the cultivable microbiota of southern-Italian troglophile bats, including several potentially pathogenic strains and numerous putatively symbiotic species.

Citations (2)


... Most studies on the bat microbiome concentrate therefore on their virome and individual viruses, while the works on bacteria and fungi inhabiting the microbial communities of these animals are scarce. However, bacteria and fungi of bats may also be from the medical and veterinary points of view due to development of emergent species and strains and proliferation of the genes of resistance to antimicrobials (Ludwig et al., 2021;Devnath et al., 2022;Foti et al., 2023). ...

Reference:

Composition of the Common Noctule (Nyctalus noctula) Gut Microbiota Determined by Bacteriological Analysis and High-Throughput 16S rRNA Gene Sequencing
Antimicrobial Resistance in Physiological and Potentially Pathogenic Bacteria Isolated in Southern Italian Bats

Animals

... Microbiome analysis of the V. murinus in this study, which was suffering from haemorrhagic gastroenteritis, indicated a low diversity of bacterial taxa comprising just two classes, three orders and five families. The dominant family in this case were the Morganellaceae, mainly comprising the genus Morganella, which is normally a rather sporadic taxon in the chiropteran gut microbiome (47) and may have been the causative agent of the haemorrhagic gastroenteritis (48). A decrease in intestinal microbiome diversity is often associated with a state of dysbiosis. ...

Cultivable Bacteria Associated with the Microbiota of Troglophile Bats

Animals