Burns Involving 20% or More of Body Surface Clinical Trial
Official title:
Identification and Validation of Established and Novel Biomarkers for Infections in Burns
In this prospective, multi-center study, 200 patients from four participating Texas burn hospitals will be enrolled from admission to discharge. The clinical research study team will collect approximately 11 serum samples and clinical data related to sepsis and infection predictors from severely burned adult patients, ages 18-80 years old. All serum samples from participating sites will be shipped to the lead site, University of Texas Medical Branch. The University of Texas Medical Branch will then validate previously identified biomarkers while simultaneously identifying novel biomarkers through discovery proteomics.
The burn literature is replete with suggested biomarkers of infections for identifying sepsis
or other infections in burn patients, however, these reports are largely untested. In order
for incorporation of infection biomarker assessment to become the standard of care,
validation of these markers in a multi-center prospective study is necessary. As the majority
of these biomarkers have been chosen because of success in other patient populations, or ease
of measurement, it is possible that the best biomarkers of infection have not yet been
discovered in this patient population. Prospective identification and validation of novel
biomarkers may also improve early identification of infections in burn patients. Early
treatment of infections and sepsis directly correlated with improved survival and reduced
costs of care.
In this prospective, multi-center study, 200 patients from four participating Texas burn
hospitals will be enrolled from admission to discharge. The clinical research study team will
collect approximately 11 serum samples and clinical data related to sepsis and infection
predictors from severely burned adult patients, ages 18-80 years old. All serum samples from
participating sites will be shipped to the lead site, University of Texas Medical Branch. The
University of Texas Medical Branch will then validate previously identified biomarkers while
simultaneously identifying novel biomarkers through discovery proteomics.
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