Sepsis Clinical Trial
Official title:
ProCalcitonin in the Pediatric Surgical Patient, Evaluation of a New Marker of Infection
First, we, the researchers, hope to find out the PCT response to heart surgery in children
by taking blood before surgery and each day for four days after surgery. These blood draws
will help us figure out the typical Procalcitonin (PCT) response, the normal increase in PCT
after heart surgery, and when the PCT level returns to baseline.
Second, we, the researchers, hope to determine the accuracy of PCT as a marker of infection.
Hypothesis
Our hypothesis is that Procalcitonin is superior to other currently used markers of
infection and will prove to be a clinically useful tool for evaluation of infection in
children following cardiac surgery.
In this research study, we want to look at the difficulty in identifying infections in
children who have heart surgery. We also want to look at differentiating between actual
infections and the normal post-surgery course that patients go through. We use a number of
tools in the Intensive Care Unit to pick out children at risk for an infection. These tools
are the physical examination, a fever, white blood cell count, and C-reactive Protein (CRP)
level. When a patient has an infection, they usually have a fever, have a high white blood
cell count, and have an increased CRP level. However, these are not always correct. The
identification of infection remains a challenge and the laboratory markers of infection
(white blood cell count and CRP) that are used now are not perfect.
A new marker of infection, Procalcitonin (PCT), has been found and has been tested in adults
and children. PCT has recently been approved by the Food and Drug Administration (FDA) as a
marker of infection. PCT has been shown to be a more accurate marker of infection for some
groups of patients.
Prior work on a small number of children shows that PCT increases shortly just from heart
surgery itself, even without infection. There is little information published about how
accurate PCT is for identifying infection in the child heart population. In order to use PCT
in our patients, we need to know what the normal levels of PCT are after surgery. Thus, when
an infection does happen, we can identify it. We also need to take PCT levels when patients
are thought to have infections. We will then need to watch for an infection over the next
few days to see if the PCT level rises and can actually predict the presence an infection.
Goals:
1. Determine the Procalcitonin response to cardiopulmonary bypass in children undergoing
open-heart surgery. Cardiopulmonary bypass causes a pro-inflammatory state in the
patient, and associated rise in Procalcitonin. The ability to use PCT as a marker for
infection will require knowledge of its typical response to bypass and the time course
to return to baseline.
2. Determine the accuracy of Procalcitonin as a marker of infection, and to compare and
contrast these findings with currently used laboratory markers.
Specific Aims
1. Evaluate PCT in the postoperative pediatric cardiac surgical patient as a marker for
infection and sepsis.
2. Evaluate PCT's response to cardiopulmonary bypass, and as a predictor of outcome
following cardiac surgery.
3. Compare PCT to other markers of inflammation and infection (C-reactive protein and
white blood cell response).
By doing this study, we hope to find out two things. First, we hope to find out the PCT
response to heart surgery in children by taking blood before surgery and each day for four
days after surgery. These blood draws will help us figure out the typical PCT response, the
normal increase in PCT after heart surgery, and when the PCT level returns to baseline.
Second, we hope to determine the accuracy of PCT as a marker of infection. Whenever we think
a patient may have an infection, it is routine care to take some blood and run lab tests
such as a white blood cell count, blood culture, and a C-reactive protein level. Patients in
the study will also have an additional 10 drops of blood taken for a PCT level at the same
time as the routine blood draw. Even though patients may show signs of an infection, the
routine blood test do not always come back positive for an infection. We will compare the
routine blood test results (positive or negative for an infection) with the PCT level taken
at the same time. If most patients with an infection also have a rise in PCT and those
patients without an infection have a normal PCT, then we will prove that PCT is a good,
accurate marker for infection in our patients.
This research will help us study infection in our patients. It will help distinguish
patients with infection, what the risk factors are, how they are treated, and the response
to infection. This information will potentially allow us to use an improved test for
identifying infection in a high-risk population of children. Patients in the research
project will continue to receive the standard of care treatment after heart surgery and
there will be no changes in their care during the study.
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Observational Model: Case-Only, Time Perspective: Prospective
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