AI Article Synopsis
- This study investigates the prevalence and impact of bacterial co-pathogens in COVID-19 patients at a tertiary care hospital, emphasizing their antibiotic resistance patterns.
- Over six months, clinical samples from 814 patients were analyzed; 17.9% showed bacterial infections, with 74% of those being secondary infections acquired after hospitalization.
- The majority of the identified bacteria were gram-negative and multidrug resistant, suggesting the need for focused antibiotic strategies and minimizing unnecessary empirical treatments.
Article Abstract
Objective: Bacterial co-pathogens are common in various viral respiratory tract infections, leading to increased disease severity and mortality. Still, they are understudied during large outbreaks and pandemics. This study was conducted to highlight the overall burden of these infections in COVID-19 patients admitted to our tertiary care hospital, along with their antibiotic susceptibility patterns.
Material And Methods: During the six-month study period, clinical samples (blood samples, respiratory samples, and sterile body fluids, including cerebrospinal fluid [CSF]) of COVID-19 patients with suspected bacterial coinfections (at presentation) or secondary infections (after 48 hours of hospitalization) were received and processed for the same.
Results: Clinical samples of 814 COVID-19 patients were received for bacterial culture and susceptibility. Out of the total patient sample, 75% had already received empirical antibiotics before the samples were sent for analysis. Overall, 17.9% of cultures were positive for bacterial infections. Out of the total patients with bacterial infection, 74% (108/146) of patients had secondary bacterial infections (after 48 hours of hospitalization) and 26% (38/146) had bacterial coinfections (at the time of admission). Out of the 143 total isolates obtained, the majority (86%) were gram-negative organisms, of which was the commonest organism (35.6%), followed by (18.1%). The majority (50.7%) of the pathogenic organisms reported were multidrug resistant.
Conclusion: The overall rate of secondary bacterial infections (SBIs) in our study was lower (7.9%) than reported by other studies. A rational approach would be to adhere to the practice of initiating culture-based guidance for antibiotics and to restrict unnecessary empirical antimicrobial therapy.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8555674 | PMC |
| http://dx.doi.org/10.5339/qmj.2021.62 | DOI Listing |
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