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E. faecium

Emery Haley, PhD, Scientific Writing Specialist

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References

1. Khalil, M.A.; Alorabi, J.A.; Al-Otaibi, L.M.; Ali, S.S.; Elsilk, S.E. Antibiotic Resistance and Biofilm Formation in Enterococcus Spp. Isolated from Urinary Tract Infections. Pathogens 2022, 12, 34, doi:10.3390/pathogens12010034.
2. BacDive | The Bacterial Diversity Metadatabase Available online: https://bacdive.dsmz.de/ (accessed on 11 February 2025).
3. BioCyc Pathway/Genome Database Collection Available online: https://biocyc.org/ (accessed on 11 February 2025).
4. Xu, W.; Fang, Y.; Zhu, K. Enterococci Facilitate Polymicrobial Infections. Trends Microbiol. 2024, 32, 162–177, doi:10.1016/j.tim.2023.07.010.
5. Laliany, G.; Jamehdar, S.A.; Makhdoumi, A. In Vitro Virulence Activity of Pseudomonas Aeruginosa, Enhanced by Either Acinetobacter Baumannii or Enterococcus Faecium through the Polymicrobial Interactions. Arch. Microbiol. 2022, 204, 709, doi:10.1007/s00203-022-03308-8.
6. Coman, F.; Codău, C.-A.; Novac, B. Breaking the Stone and Beating the Bug: Managing Ureterolithiasis with Enterococcus Faecium in a High-Risk Patient. Arch. Clin. Cases 2025, 12, 51–53, doi:10.22551/2025.46.1201.10312.
7. Eure, T.R.; Stone, N.D.; Mungai, E.A.; Bell, J.M.; Thompson, N.D. Antibiotic-Resistant Pathogens Associated with Urinary Tract Infections in Nursing Homes: Summary of Data Reported to the National Healthcare Safety Network Long-Term Care Facility Component, 2013–2017. Infect. Control Hosp. Epidemiology 2021, 42, 31–36, doi:10.1017/ice.2020.348.
8. Kraszewska, Z.; Skowron, K.; Kwiecińska-Piróg, J.; Grudlewska-Buda, K.; Przekwas, J.; Wiktorczyk-Kapischke, N.; Wałecka-Zacharska, E.; Gospodarek-Komkowska, E. Antibiotic Resistance of Enterococcus Spp. Isolated from the Urine of Patients Hospitalized in the University Hospital in North-Central Poland, 2016–2021. Antibiotics 2022, 11, 1749, doi:10.3390/antibiotics11121749.
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10. Ahmed, J.; Yadav, R.K.; Sood, S.; Das, B.K.; Dhawan, B. Vancomycin-Resistant Enterococcus Faecium: A High Priority Pathogen. J. Appl. Sci. Clin. Pr. 2023, 4, 168–176, doi:10.4103/jascp.jascp_17_23.
11. Wang, D.; Haley, E.; Luke, N.; Mathur, M.; Festa, R.; Zhao, X.; Anderson, L.A.; Allison, J.L.; Stebbins, K.L.; Diaz, M.J.; et al. Emerging and Fastidious Uropathogens Were Detected by M-PCR with Similar Prevalence and Cell Density in Catheter and Midstream Voided Urine Indicating the Importance of These Microbes in Causing UTIs. Infect. Drug Resist. 2023, Volume 16, 7775–7795, doi:10.2147/idr.s429990.
12. Haley, E.; Luke, N.; Mathur, M.; Festa, R.A.; Wang, J.; Jiang, Y.; Anderson, L.A.; Baunoch, D. The Prevalence and Association of Different Uropathogens Detected by M-PCR with Infection-Associated Urine Biomarkers in Urinary Tract Infections. Res. Rep. Urol. 2024, 16, 19–29, doi:10.2147/rru.s443361.
13. Akhlaghpour, M.; Haley, E.; Parnell, L.; Luke, N.; Mathur, M.; Festa, R.A.; Percaccio, M.; Magallon, J.; Remedios-Chan, M.; Rosas, A.; et al. Urine Biomarkers Individually and as a Consensus Model Show High Sensitivity and      Specificity for Detecting UTIs. BMC Infect Dis 2024, 24, 153, doi:10.1186/s12879-024-09044-2.
14. Parnell, L.K.D.; Luke, N.; Mathur, M.; Festa, R.A.; Haley, E.; Wang, J.; Jiang, Y.; Anderson, L.; Baunoch, D. Elevated UTI Biomarkers in Symptomatic Patients with Urine Microbial Densities of 10,000 CFU/ML Indicate a Lower Threshold for Diagnosing UTIs. MDPI 2023, 13, 1–15, doi:10.3390/diagnostics13162688.
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About the Author

Dr. Emery Haley is a scientific writing specialist with over ten years of experience in translational cell and molecular biology. As both a former laboratory scientist and an experienced science communicator, Dr. Haley is passionate about making complex research clear, approachable, and relevant. Their work has been published in over 10 papers and focuses on bridging the gap between the lab and real-world patient care to help drive better health outcomes.

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