Pro-Can: Procalcitonin and Antimicrobial Utilization in Critically Ill Cancer Patients With Sepsis

Study Description

Brief Summary

Studies have demonstrated that the use of a procalcitonin (PCT)-guided algorithm in combination with clinical judgment was associated with reduced antibiotic use without impacting mortality or treatment failure. Though several studies have evaluated the use of PCT in critically ill patients, there are limited studies that evaluated PCT in patients with cancer and many of the currently available studies have excluded immune-compromised patients.

This is a randomized controlled trial that aims to evaluate the impact of a procalcitonin-guided algorithm on antibiotic utilization in critically ill cancer patients with sepsis. In addition, the study aims to evaluate the predictive value of PCT for predicting mortality and positive cultures.

Detailed Description

Procalcitonin (PCT) has been widely studied to guide antibiotic use in critically ill septic patients. Using an algorithm for antibiotic de-escalation guided by PCT levels in septic patients with respiratory tract infections was associated with lower antibiotics exposure without increasing mortality or treatment failure. Furthermore, the current Surviving Sepsis Guidelines suggest that PCT levels may help clinicians in their decision of empiric antibiotics discontinuation especially in patients with suspected sepsis and low PCT values with no other evidence of infection (low level of evidence, GRADE 2C).

Reducing the use of antibiotics is a global health care priority. Using a PCT-guided algorithm in combination with clinical judgment was associated with reduced antibiotic use without increasing morbidity or mortality. Though PCT has been widely studied as a diagnostic, prognostic, and theragnostic inflammatory marker in patients with sepsis, there are limited studies that evaluated PCT in patients with cancer and many of the currently available studies have excluded immune-compromised patients. Furthermore, studies have reported elevated inflammatory markers, including PCT, in patients with cancer as a result of the malignancy itself or treatment complications. This may suggest that PCT alone may possibly be less useful for differentiating infectious from non-infectious sources of fever in cancer patients. However, serial PCT levels may be more useful in cancer patients, compared to a single level.

Sepsis is common in cancer patients; however, there are limited studies evaluating the clinical impact of obtaining PCT levels in this patient population. Therefore, this study will evaluate the impact of obtaining serial PCT levels on the number of antibiotic days in cancer patients with sepsis. In addition, the study aims to evaluate the predictive value of PCT for predicting mortality and positive cultures.

Study Objectives The main objective of this study is to evaluate the impact of a PCT-guided algorithm on the duration of antimicrobial therapy in critically ill cancer patients with sepsis. The main research question being asked is whether providing the clinical team with daily PCT levels, along with a PCT-based algorithm to guide antimicrobial management, would have an impact on the duration of antibiotic therapy. In addition, the study intends to assess the role of PCT in predicting mortality and positive cultures in the cancer septic patient population.

Study Design

Outcome Measures

Primary Outcome Measures

1. Time to antibiotic cessation [28 days]

   Time to antibiotic cessation at 28 days, hospital discharge, or death, whichever comes first after randomization

2. Number of antibiotic-free days [28 days]

   Number of antibiotic-free days at day 28 after randomization

Secondary Outcome Measures

1. Antibiotic utilization [28 days]

   The antibiotic utilization will be evaluated by determining the antibiotic daily defined doses (DDD), as set by the World Health Organization, for each patient over the study period.

Other Outcome Measures

1. Antibiotic de-escalation [28 days]

   Determined if de-escalation of antimicrobial therapy is performed during the ICU stay. De-escalation will be defined as reducing both the spectrum of antimicrobial therapy and its potential to promote resistance by driving selective pressure on microbiota. Reducing the number of antibiotics will also be considered as de-escalation.

2. Predictive value of PCT for both mortality [28 days]

   Determined by constructing a receiver operating characteristic (ROC) curve and the area under the ROC curve, as well as the sensitivity, specificity, and cut-off points with the highest predictability.

3. Recurrence of infection [28 days]

   Defined as a new infection that develops within 48 hours after stopping or de-escalating antibiotics.

4. Compliance with the PCT algorithm [5 days]

   The clinical decision of the medical team will be compared with the management suggested by the algorithm.

5. Predictive value of PCT for positive cultures [28 days]

   Determined by constructing a receiver operating characteristic (ROC) curve and the area under the ROC curve, as well as the sensitivity, specificity, and cut-off points with the highest predictability.

Eligibility Criteria

Criteria

Inclusion Criteria:

• Age ≥ 18 years old

• Expected to remain in the ICU for at least 48 hours

• Patient meets the SEPSIS-3 criteria for sepsis defined as having a SOFA score change of 2 or more and suspected infection.

• Patient on antibiotics for suspected infection

Exclusion Criteria:

• Patient code is DNR

• Patient receiving antibiotics for surgical prophylaxis

• Consent cannot be obtained

• Patients who are expected to require antibiotics for more than 14 days

• Patients who have PCT levels ordered as part of their routine clinical care

• Patients who are followed by the Infectious Disease team.

• Patient with life expectancy <24 hours.

Contacts and Locations

Locations

Sponsors and Collaborators

• King Hussein Cancer Center

Investigators

• Principal Investigator: Lama H Nazer, PharmD, King Hussein Cancer Center

Study Documents (Full-Text)

More Information

Publications

• Andriolo BN, Andriolo RB, Salomão R, Atallah ÁN. Effectiveness and safety of procalcitonin evaluation for reducing mortality in adults with sepsis, severe sepsis or septic shock. Cochrane Database Syst Rev. 2017 Jan 18;1:CD010959. doi: 10.1002/14651858.CD010959.pub2. Review.
• de Jong E, van Oers JA, Beishuizen A, Vos P, Vermeijden WJ, Haas LE, Loef BG, Dormans T, van Melsen GC, Kluiters YC, Kemperman H, van den Elsen MJ, Schouten JA, Streefkerk JO, Krabbe HG, Kieft H, Kluge GH, van Dam VC, van Pelt J, Bormans L, Otten MB, Reidinga AC, Endeman H, Twisk JW, van de Garde EMW, de Smet AMGA, Kesecioglu J, Girbes AR, Nijsten MW, de Lange DW. Efficacy and safety of procalcitonin guidance in reducing the duration of antibiotic treatment in critically ill patients: a randomised, controlled, open-label trial. Lancet Infect Dis. 2016 Jul;16(7):819-827. doi: 10.1016/S1473-3099(16)00053-0. Epub 2016 Mar 2.
• Paul M, Dickstein Y, Raz-Pasteur A. Antibiotic de-escalation for bloodstream infections and pneumonia: systematic review and meta-analysis. Clin Microbiol Infect. 2016 Dec;22(12):960-967. doi: 10.1016/j.cmi.2016.05.023. Epub 2016 Jun 6. Review.
• Prkno A, Wacker C, Brunkhorst FM, Schlattmann P. Procalcitonin-guided therapy in intensive care unit patients with severe sepsis and septic shock--a systematic review and meta-analysis. Crit Care. 2013 Dec 11;17(6):R291. doi: 10.1186/cc13157. Review.
• Schuetz P, Chiappa V, Briel M, Greenwald JL. Procalcitonin algorithms for antibiotic therapy decisions: a systematic review of randomized controlled trials and recommendations for clinical algorithms. Arch Intern Med. 2011 Aug 8;171(15):1322-31. doi: 10.1001/archinternmed.2011.318. Review.
• Shehabi Y, Sterba M, Garrett PM, Rachakonda KS, Stephens D, Harrigan P, Walker A, Bailey MJ, Johnson B, Millis D, Ding G, Peake S, Wong H, Thomas J, Smith K, Forbes L, Hardie M, Micallef S, Fraser JF; ProGUARD Study Investigators; ANZICS Clinical Trials Group. Procalcitonin algorithm in critically ill adults with undifferentiated infection or suspected sepsis. A randomized controlled trial. Am J Respir Crit Care Med. 2014 Nov 15;190(10):1102-10. doi: 10.1164/rccm.201408-1483OC.
• Soni NJ, Samson DJ, Galaydick JL, Vats V, Huang ES, Aronson N, Pitrak DL. Procalcitonin-guided antibiotic therapy: a systematic review and meta-analysis. J Hosp Med. 2013 Sep;8(9):530-40. doi: 10.1002/jhm.2067. Epub 2013 Aug 17. Review.
• Wirz Y, Meier MA, Bouadma L, Luyt CE, Wolff M, Chastre J, Tubach F, Schroeder S, Nobre V, Annane D, Reinhart K, Damas P, Nijsten M, Shajiei A, deLange DW, Deliberato RO, Oliveira CF, Shehabi Y, van Oers JAH, Beishuizen A, Girbes ARJ, de Jong E, Mueller B, Schuetz P. Effect of procalcitonin-guided antibiotic treatment on clinical outcomes in intensive care unit patients with infection and sepsis patients: a patient-level meta-analysis of randomized trials. Crit Care. 2018 Aug 15;22(1):191. doi: 10.1186/s13054-018-2125-7.