Research Title: Efficacy and Safety of Point- Of-care Procalcitonin Test to Reduce Antibiotic Exposure in VAP

Ventilator Associated Pneumonia Clinical Trial

Official title: Research Title: Efficacy and Safety of Point- Of-care Procalcitonin Test to Reduce Antibiotic Exposure in Ventilator Associated Pneumonia (VAP) Patient in ICU: A Randomised Controlled Trial

Status Completed

Clinical Trial Summary

Several studies have shown that PCT guidance can reduce the duration of antibiotic treatment for patients with bacterial infections in the ICU, without compromising the safety outcomes. However PCT is known to be more costly than standard biomarkers that commonly use in our ICU setup. This remain the main challenge for us whether by monitoring the PCT level, it can reduce both the duration of antibiotic simultaneously reduce the total cost of the treatment for the patients. A local study addressing efficacy, safety and cost analysis of PCT-guided antibiotic therapy in severe pneumonia patients is therefore warranted. Until the results from a local study become available, the utility of PCT to guide antibiotic duration in our patient population cannot be recommended.

Clinical Trial Description

Pneumonia remains one of the major cause of morbidity and mortality in critically ill patients in the intensive care unit (ICU) worldwide. In Malaysia, according to the Malaysian Registry of Intensive Care 2016, pneumonia was among the four (5.7%) most common diagnosis leading to admission to ICU. In many scenario, pneumonia associated with severe sepsis either as single source of sepsis or in combination with other source of infection which carry mortality mortality reported 53.4% 1. Timely, appropriate and adequate antibiotic therapy is of paramount importance in the critically ill patients with severe pneumonia. However, overly long antibiotic treatment is undesirable because of side effects, increasing antibiotic resistance2 and financial burden to patient and Malaysia Healthcare.

Antibiotic remain the main weapon to combat pneumonia. Nevertheless, rampant use of antibiotic without specific indicator is vain. Hence, with the latest technology, physicians not only rely on clinical improvement but also specific biomarkers for resolution of sepsis which might assist the ICU physicians in making decisions on antibiotic therapy on an individual basis.

Commonest used biomarkers for this purpose include leucocyte count and C-reactive protein (CRP). These biomarkers are sensitive but not specific. Procalcitonin (PCT) however has been advocated as a biomarker with a better specificity and sensitivity for diagnosis and follow-up of severe bacterial infections.

PCT is the prohormone of calcitonin. It consists of about 116 amino-acids. The locus of formation in classical pathway is the C-cells of the thyroid. In case of bacterial infection, PCT is formed in all tissues via an alternative pathway. Linscheid et al. 2004 described, in case of bacterial infection two mechanisms of synthesis are at work. At first cytokine-stimulated adherent monocytes release PCT in low quantities. This synthesis is limited. But it plays an important role in the initiation of PCT synthesis in storage tissues of humans. This PCT burst is initiated in all storage tissues (>18h). PCT is a perfect tool to differentiate between viral and bacterial infections (e.g. Gendrel et al. 1999). This is why in septic patients extremely high concentrations of PCT were found in the plasma (about 100,000-fold of the physiological concentration in healthy subjects). ;

Related Conditions & MeSH terms

• Pneumonia
• Pneumonia, Ventilator-Associated
• Ventilator Associated Pneumonia

• NCT number: NCT03982667
• Study type: Interventional
• Source: Universiti Sains Malaysia
• Status: Completed
• Phase: N/A
• Start date: June 15, 2019
• Completion date: July 1, 2020