Sepsis Clinical Trial
Official title:
Procalcitonin Versus C-Reactive Protein for the Guidance of Antibiotic Therapy in Critically Ill Septic Patients
Sepsis is a life threatening organ dysfunction caused by infection. Severe sepsis is expected to rise due to resistance to antibiotics. Inappropriate use of antibiotics in the ICU leads to adverse drug reaction and bacterial resistance. Using biomarkers for infection as PCT and CRP are useful in diagnosing infection and duration of therapy. CRP based protocol will be compared to PCT based protocol for reducing the length of stay and reduction of antibiotic use in critically ill patients.
Sepsis is a syndrome of physiologic, pathologic, and biochemical abnormalities induced by
infection. It is defined as life-threatening organ dysfunction caused by a dysregulated host
response to infection. It is a major public health concern, accounting for more than $20
billion (5.2%) of total US hospital costs in 2011. Not only is sepsis expensive and
prevalent, but it is a major cause of mortality and critical illness worldwide. Moreover,
cases of severe sepsis are expected to rise in the future for several reasons, including:
Increased awareness and sensitivity for the diagnosis; increasing numbers of
immunocompromised patients; wider use of invasive procedures; more resistant microorganisms;
and old aging population.
Use of appropriate antibiotics in the intensive care unit (ICU) is a major challenge. Studies
have shown that up to 50% of antibiotics prescribed in hospital settings are either
unnecessary or inappropriate, contributing to increasing rates of resistant organisms,
increases in adverse drug reactions, overall length of stay (LOS) and mortality. In addition,
in critically ill patients, a long duration of treatment with antibiotics is associated with
the development of antimicrobial resistance. Moreover, Sepsis and Systemic Inflammatory
Response Syndrome (SIRS) SIRS can closely mimic one another and present a diagnostic
challenge. So, determination of the presence or absence of bacterial infection is important
to guide appropriate therapy and reduce antibiotic exposure. For microorganism detection,
culture sensitivity is used though it has some drawbacks as time consuming, sometimes
misleading with negative or positive reports and also they don't give information about the
onset of organ dysfunction. Accordingly, it is important to differentiate culture negative
sepsis patients from those with noninfectious SIRS, as these disease conditions require
different therapeutic regimens. Due to these drawbacks of culture, researchers tried to
depend on other more specific blood markers.
Biomarkers of infection, namely C-reactive protein and procalcitonin (PCT) have been shown to
be useful in the diagnosis of infection as well as in the assessment of its response to
antibiotic therapy. C-reactive protein variations overtime appears to have a good performance
for the diagnosis of infection. Procalcitonin shows a better correlation with clinical
severity.
Despite being used routinely in several intensive care services as an auxiliary criterion for
decisions regarding antibiotic therapy, no C- reactive protein based protocol has been tested
in clinical trials to guide the reduction of antibiotic use in patients with sepsis until
2012. In 2013 Oliveira et al. compared a protocol based on serum PCT levels versus a protocol
based on serum C-reactive protein levels for reducing the duration of antibiotic treatment in
critically ill patients presenting with severe sepsis or septic shock. The latter study
showed that C-reactive protein was as useful as procalcitonin in reducing antibiotic use in a
predominantly medical population of septic patients, causing no apparent harm.
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