Interdisciplinary approach decreases broad spectrum antibiotic usage

An interdisciplinary approach to antimicrobial stewardship involving comprehensive blood culture identification (BCID) testing decreased broad spectrum antibiotic use, according to new research presented last week in Philadelphia at the 46th Annual Conference of the Association for Professionals in Infection Control and Epidemiology (APIC).

The microbiology lab at Einstein Medical Center Montgomery in Pennsylvania, in collaboration with the antimicrobial stewardship team, implemented a new protocol to treat sepsis patients. Rapid BCID polymerase chain reaction (PCR) tests were administered to identify the bacteria making the patient sick, and pharmacists made recommendations on how to manage or readjust the previously prescribed antibiotic regimen.

Data collected for four months before and after implementation showed that the new BCID PCR test protocol resulted in providers adjusting patients’ antibiotic treatment a full 25 hours sooner on average, decreasing patients’ time on broad spectrum antibiotics.

“Reducing the use of broad spectrum antibiotics is essential in slowing the growth of resistant bacteria,” said lead study author David Ezdon, PharmD. “Through rapid blood culture identification tests, we are able to tailor patients’ antibiotic regimen and ultimately improve their care.”

Pharmacists’ recommendations were developed using an algorithm that determines the best course of treatment for the type of bacteria indicated by the BCID PCR test results.

By optimizing antibiotic use, Montgomery Hospital observed a length of stay reduction of 1.45 days per patient, which resulted in a cost avoidance of $322,508 over four months.

“This scenario illustrates the success that antimicrobial stewardship programs can achieve when healthcare providers, pharmacists, and infection preventionists work together,” said 2019 APIC President Karen Hoffmann, RN, MS, CIC, FSHEA, FAPIC. “Antimicrobial stewardship programs require coordination across multiple disciplines to achieve the larger goal of preserving antibiotic therapy for future generations.”

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