Procalcitonin to guide antibiotic decision making

Department

Medicine

Document Type

Article

Publication Title

Current Opinion In Infectious Diseases

Abstract

PURPOSE OF REVIEW: There is convincing evidence linking antibiotic-stewardship efforts which include the infection marker procalcitonin (PCT) to more rational use of antibiotics with improvements in side-effects and clinical outcomes. This is particularly true in the setting of respiratory infection and sepsis. Yet, some recent trials have shown no benefit of PCT-guided care. Our aim was to discuss the benefits and limitations of using PCT for early infection recognition, severity assessment and therapeutic decisions in individual patients based on most the recent study data. RECENT FINDINGS: Current evidence from randomized trials, and meta-analyses of these trials, indicates that PCT-guided antibiotic stewardship results in a reduction in antibiotic use and antibiotic side-effects, which translates into improved survival of patients with respiratory infections and sepsis. Notably, initial PCT levels have been found to be helpful in defining the risk for bacterial infection in the context of a low pretest probability for bacterial infections (i.e., patients with bronchitis or chronic bastructive pulmonary disease exacerbation). Monitoring of repeated PCT measurements over time has also been found helpful for estimating recovery from bacterial infection and prognosis in higher risk situations (i.e., pneumonia or sepsis) and results in early and safe discontinuation of antibiotic therapy. Some trials, however, did not find a strong effect of PCT guidance which may be explained by low protocol adherence, assessment using only a single rather than repeat PCT levels and lower antibiotic exposure in control group patients. Using PCT in the right patient population, with high-sensitivity assays and with adequate training of physicians is important to increase protocol adherence and reduce antibiotic exposure. SUMMARY: Inclusion of PCT into antibiotic stewardship algorithms has the potential to improve the diagnostic and therapeutic management of patients presenting with respiratory illnesses and sepsis, and holds great promise to mitigate the global bacterial resistance crisis and move from a default position of standardized care to more personalized treatment decisions.

First Page

130

Last Page

135

DOI

10.1097/QCO.0000000000000522

Volume

32

Issue

2

Publication Date

4-1-2019

Medical Subject Headings

Anti-Bacterial Agents (therapeutic use); Antimicrobial Stewardship (methods); Bacteremia (diagnosis, drug therapy); Biomarkers (blood); Decision Making; Disease Management; Humans; Pneumonia, Bacterial (diagnosis, drug therapy); Procalcitonin (blood)

PubMed ID

30648993

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