Ventilator-associated Pneumonia Clinical Trial
Official title:
A Randomised Controlled Trial of Biomarker-based Exclusion of VAP to Improve Antibiotic Stewardship
Critically ill patients whose lungs are supported by breathing machines (ventilators)
commonly develop a new lung infection, called ventilator-associated pneumonia (VAP). Because
VAP is often fatal, antibiotics are administered whenever it is suspected. However VAP is
hard to distinguish from several non-infective lung conditions and most patients with
suspected VAP do not have pneumonia. Therefore many patients receive unnecessary antibiotics
for several days, promoting emergence of 'superbugs'. Laboratory test results for diagnosing
VAP typically only reach the doctors after 3 days.
A simple test rapidly and confidently excluding VAP should improve patient care, reduce
unnecessary antibiotics and decrease costs. We recently showed that low levels of specific
proteins in fluid from the lungs of patients with suspected VAP effectively excluded VAP,
using a test that may yield results within 6 hours. The test used is an extension of
existing technology produced by our commercial partner Becton Dickinson (BD) Biosciences.
Our previous findings were derived from a single hospital's intensive care unit. We have
recently confirmed this finding across many intensive care units, which will help show that
the test can be used in 'real life'. The aim of this study is to take the new test to the
next step and determine whether it can improve the care of patients by reducing the amount
of unnecessary antibiotics prescribed. This will be done using a 'randomised controlled
trial', the best tool for scientifically testing a new diagnostic test. To do this we shall
identify patients with suspected VAP, all of whom will have a lung sample - half of the
patients will receive 'usual care' for suspected VAP, the other half will have the new test
performed on their lung fluid. If the new test suggests no lung infection, the doctors will
be asked to consider not giving antibiotics. We shall test how much antibiotic is given to
each group.
VAP is associated with higher mortality than any other nosocomial infection. Several
non-infective conditions mimic VAP and significant infection is usually confirmed in less
than 40% of suspected cases. No tests reliably exclude VAP at the point of clinical
suspicion, and microbiological results typically return 3 days later. Consequently, while
empirical broad-spectrum antibiotics are routinely administered, most patients with
suspected VAP do not have pneumonia.
Using cytometric bead array (CBA) technology, we have demonstrated that IL-1b in
bronchoalveolar lavage fluid (BALF) can be used to exclude VAP in both a single centre
derivation study and a multi-centre validation study. A combination of IL-1b and IL-8 can
exclude VAP with a sensitivity of 100%, a specificity of 44.3% and a negative predictive
value of 1.
This randomised controlled trial will determine whether a biomarker-based recommendation on
antibiotics (versus routine use of antibiotics) will improve antibiotic stewardship in
suspected VAP.
This study tests the hypothesis that a 'biomarker-guided recommendation on antibiotics' will
improve antibiotic stewardship in patients with suspected VAP while maintaining equivalent
patient outcomes.
Recruitment for RCT will end when BAL has been performed on 210 patients. For regulatory
purposes, the study will continue until follow up data is collected for the 210th patient.
Safety measures will be made in relation to bronchoscopy and BAL and will include SaO2,
heart rate, BP, PaO2:FiO2 before and after procedure. Adverse events considered related to
antibiotics will also be recorded. SAE, as described below, will be recorded.
Markers of inflammation will be measured in BALF and will include but not be limited to
IL-1b and IL-8.
Healthcare resource use will be estimated from the critical care length of stay (level 3 and
level 2 care) and from hospital length of stay. Data will be collected from randomisation
until hospital discharge or death, whichever occurs first, for a maximum of 56 days.
The sample size is based on changes in the frequency distribution of AFD towards more
patients having more AFD in the 7 days following BAL. Using models outlined in the Study
Protocol as exemplars of different effect sizes, we would judge that effect sizes of 0.7 and
above would represent an important clinical difference under biomarker-guided care. From
this exploration, our power calculation was judged to balance detectable effect size against
feasible recruitment, on which basis to detect an effect size of 0.0797, 90 patients are
required per study arm. Allowing for a 15% drop out (from non-evaluable data in case of
problems running biomarker assays etc), a total sample size of 210 patients are required.
Data will be collected on the process of implementing the trial. In the situation that the
patient has a biomarker result that excludes VAP but the ICU consultant does not follow the
recommendation, the ICU consultant will be asked to complete a questionnaire to give
information as to why the recommendation was not followed.
Randomisation will be performed by a designated researcher trained in the use of the
biomarker kit. The randomisation will be performed using a web-based randomisation service
hosted by NCTU. Patients will be randomised to 'biomarker-guided recommendation for
antibiotics' or 'routine use of antibiotics' in a 1:1 ratio with stratification by site.
Permuted blocks of variable length will be used and not disclosed to investigators. On
enrolment the research team will inform the researcher that a BAL is to be performed
allowing the researcher to randomise the patient. Each patient will be assigned a unique
identification number that the technician will enter into the randomisation system. The
patient will then be allocated to either study arm in accordance to the randomisation
schedule. The online randomisation service will instruct the researcher to either 'ANALYSE
THE SAMPLE ON ARRIVAL' (ie. the 'biomarker-guided recommendation on antibiotics' group) or
'DO NOT ANALYSE THE SAMPLE ON ARRIVAL' (ie. 'Routine use of antibiotics' group). The
randomisation service will automatically confirm randomisation details to the NCTU by email
and the researcher will also send the BALF biomarker result to the NCTU using the unique
identifier.
Since all recruited patients will undergo the same study procedures the clinical team will
initially be blind to the study arm. The researcher performs the randomisation and either
processes the sample or does not. For the 6 hours that it takes to process the sample by
CBA, the clinical team will be blinded to the study arm. Following this period the clinical
team will be un-blinded by the researcher who will inform the clinical team of the biomarker
result or that the biomarker test has not been performed.
A within-trial cost analysis will be undertaken to assess the impact of biomarker-based
guidance of VAP management on hospital resource use from the point of randomisation until
hospital discharge or death, whichever occurs first, for a maximum of 56 days. Patient-level
hospital resource use will be estimated from length of ICU stay and length of hospital stay.
Mean hospital resource use and associated costs will be estimated for the intervention and
standard care groups and compared. Multiple regression analyses will be performed to examine
patient factors which are potentially associated with costs. Robustness of results will be
evaluated using sensitivity analyses.
Data received at NCTU will be processed as per the CTU SOPs, including entering the data
into a secure central database. Responsibility for maintenance of the database will rest
with the study manager.
The trial will be managed through the Newcastle Clinical Trials Unit (NCTU). The Principal
Investigators will be responsible for the day-to-day study conduct at site.
NCTU will provide day-to-day support, provide trial training and routine monitoring visits.
Quality control will be maintained through adherence to NCTU SOPs, study protocol, the
principles of GCP, research governance and clinical trial regulations. An independent data
monitoring and ethics committee (DMEC) will be convened to undertake independent review. The
purpose of this committee will be to monitor efficacy and safety endpoints. Only the DMEC
will have access to unblinded study data. The committee will meet at least 3 times, at the
start, middle and completion of the study. At the first meeting, the DMEC will discuss and
advise on the inclusion of an interim analysis and possible adoption of a formal stopping
rule for efficacy or safety.
A Trial Steering Committee (TSC) will be established to provide overall supervision of the
trial. The committee will meet at baseline and at regular intervals during recruitment.
Monitoring of study conduct and data collected will be performed by a combination of central
review and site monitoring visits to ensure the study is conducted in accordance with GCP.
Study site monitoring will be undertaken by NCTU. The main areas of focus will include
consent, serious adverse events and essential documents in study files.
All monitoring findings will be reported and followed-up with the appropriate persons in a
timely manner.
The study may be subject to inspections and audit by Newcastle upon Tyne Hospitals NHS
Foundation Trust under their remit as sponsor, and other regulatory bodies to ensure
adherence to GCP. The investigator(s)/institutions will permit trial-related monitoring,
audits, REC review and regulatory inspection(s), providing direct access to source
data/documents.
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