The uselessness of using salivary microbiota in forensic identification purposes of a person with recent antibiotic use

•Examined antibiotic use-related temporal diversity of the saliva microbiota.•A total of 56 saliva samples were collected from 14 participants.•After antibiotic use, salivary microbial composition is affected for at least four weeks.•Microbial composition of saliva samples is important in detecting...

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Bibliographic Details
Published in:Legal medicine (Tokyo, Japan) Japan), 2024-07, Vol.69, p.102338, Article 102338
Main Authors: Karadayı, Beytullah, Karaismailoğlu, Bedri, Karadayı, Sukriye, Arslan, Ali, Gözen, Emine Deniz, Özbek, Tülin
Format: Article
Language:English
Subjects:
Antibiotic
Forensic identification
Metagenomic analysis
Saliva microbiome
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Summary:•Examined antibiotic use-related temporal diversity of the saliva microbiota.•A total of 56 saliva samples were collected from 14 participants.•After antibiotic use, salivary microbial composition is affected for at least four weeks.•Microbial composition of saliva samples is important in detecting antibiotic use. The detection of microbial flora changes in saliva samples because of antibiotic use through advanced molecular genetic analysis is important for forensic and clinical applications. This study aims to reveal the variability in the microbial structure of human saliva after antibiotic use with metagenomic analysis techniques from a forensic point of view. Within the scope of the study, saliva samples were collected from patients who were under the effect of regional anesthesia to be administered a standardized course of antibiotic therapy that lasted for a week. The analysis was conducted on 56 saliva samples from 14 individuals over four different time intervals. Isolation of the 16S rRNA region and PCR analysis were performed prior to sequence analysis to determine the microbiome structure of the samples at phylum, genus, and species levels. As expected, changes were observed in bacterial species found in saliva samples after administration of antibiotics and this was linked to the specific type of antibiotics that were administered. This change was statistically significant for Firmicutes, Spirochetes, and Verrucomicrobiota. Furthermore, although the oral microbiome tends to return to its former state at the phylum and genus level within a 4-week period after the start of antibiotic use, it is observed that the change, especially in some bacterial species, still continues. The findings of this study show that because of the inability of stabilization at species-level in a period of 4 weeks from the start of antibiotic use, it is not suitable to assess saliva samples at species-level for forensic identification.
ISSN:1344-6223
1873-4162
1873-4162
DOI:10.1016/j.legalmed.2023.102338