Resistance, Ineffectiveness, and Off-Label Use Related to Cephalosporins from the Reserve Group—A Pharmacovigilance Signal Detection Study on EudraVigilance Database
Anca Maria Arseniu, Bogdan Ioan Vintila, Anca Butuca, Laurentiu Stoicescu, Adina Frum, Adriana Aurelia Chis, Rares Arseniu, Felicia Gabriela Gligor, Steliana Ghibu, Claudiu Morgovan, Carmen Maximiliana Dobrea

TL;DR
This study analyzes real-world data to detect signals of resistance, ineffectiveness, and off-label use among reserve-group cephalosporins, highlighting the need for better antibiotic stewardship.
Contribution
The study identifies specific pharmacovigilance signals for reserve-group cephalosporins using EudraVigilance data, revealing patterns of resistance and misuse.
Findings
Ceftazidime/avibactam had the highest number of reports, followed by ceftaroline and ceftolazane/tazobactam.
Cefiderocol showed the strongest signal for resistance against cefixime and ineffectiveness against cefditoren.
All reserve-group cephalosporins (except ceftobiprole) had higher ineffectiveness and off-label use signals than the Watch group.
Abstract
Background/Objectives: Antimicrobial resistance (AMR) is considered a major threat by the healthcare community. In this context, the AWaRe (Access, Watch, Reserve) classification of antibiotics is a valuable tool that can assist physicians during the clinical decision process and pharmacists in promoting the rational use of antibiotics. Pharmacovigilance studies based on real-world evidence offer valuable insight into the AMR phenomenon. The aim of this study was the assessment of the resistance, ineffectiveness, and off-label use signals of all five cephalosporins belonging to the Reserve group (ceftazidime/avibactam, ceftaroline, cetolozane/tazobactam, ceftobiprole, and cefiderocol). Methods: The study was conducted using descriptive approaches on EudraVigilance data and disproportionality analyses comparing each of the fourteen cephalosporins in the Watch group. Results:…
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Taxonomy
TopicsPharmacovigilance and Adverse Drug Reactions · Antibiotic Use and Resistance · Meta-analysis and systematic reviews
