The Natural History of Procalcitonin in Hemorrhagic Stroke
Other: Procalcitonin level
|Study Design:||Observational Model: Cohort
Time Perspective: Prospective
|Official Title:||The Natural History of Procalcitonin in Hemorrhagic Stroke|
- Natural progression of PCT following hemorrhagic stroke [ Time Frame: Change in serum PCT level on day 0 (baseline) from serum PCT level day 1, 3, and 5. ] [ Designated as safety issue: No ]
- Markers of infection (if obtained by treating medical team) using SIRS criteria well as cultures. [ Time Frame: From date of enrollment to 28 days or until death or discharge, whichever comes first. ] [ Designated as safety issue: No ]Sirs criteria: temperature < 36°C or > 38°C, heart rate > 90 beats/min, respiratory rate > 20 breaths/min, white blood cell count < 4000/mm² or > 12,000/mm² or ≥ 10% bands Cultures: blood, urine and sputum obtained by the treating medical team during study period and followed until final culture results are determined
Biospecimen Retention: Samples Without DNA
|Study Start Date:||December 2011|
|Estimated Study Completion Date:||December 2012|
|Estimated Primary Completion Date:||June 2012 (Final data collection date for primary outcome measure)|
Other: Procalcitonin level
PCT level upon admission and on days 1, 3, and 5 following baseline level
Stroke is the second leading killer worldwide and the third leading cause of death in the United States. The two major mechanisms causing brain damage in stroke are, ischemia and hemorrhage. Several complications can arise from these cerebral insults ranging from minor neurologic dysfunction, complete immobility, or death. In the intensive care setting, clinicians combat the pathophysiologic processes that lead to the aforementioned sequelae of stroke and contest other acute issues which may or may not be secondary to the stroke itself, with one such issue being hyperthermia. Hyperthermia is defined by the Society of Critical Care Medicine as a temperature greater than 38.3°C. In one prospective study, hyperthermia was reported to occur in 43% of patients during the first week of hospitalization following an ischemic or hemorrhagic (excluding subarachnoid hemorrhage) stroke. Hyperthermia in the stroke patient can be detrimental leading to increased infarct size and worsened neurological outcomes. The etiology of the hyperthermia may not be clear upon initial evaluation but cessation of fever is essential to prevent further damage.
One possible cause of hyperthermia in the stroke patient is bacterial infection. Infection complicating cerebral insult can lead to poor functional outcome and increased mortality. Kilpatrick and colleagues found that fever occurred in 47% of patients who were admitted with either a traumatic or ischemic brain injury and 70% of these patients received at least one antibiotic within 24 hours of their febrile episode, however the antibiotics had no effect on controlling the fevers. With bacterial resistance ever increasing, it is vital that clinicians reserve antibiotics for patients in whom the source of fever is believed to be secondary to an infectious process. It has been estimated that the United States health care system spends more than $20 billion annually on antibiotic-resistant infections and these infections result in more than eight million additional hospital days. Antibiotic use across health care disciplines has been estimated to be administered either inappropriately or unnecessarily 50% of the time. Considering clinical symptoms of infection can mirror other disease processes, reliable diagnostic biomarkers would be useful in helping determine the appropriate diagnosis.
PCT is a 116 amino acid peptide with a sequence identical to calcitonin but lacking hormonal activity. PCT was first utilized by Assicot et al in the setting of sepsis to help determine whether the inflammatory response from the patient was secondary to bacterial infection. Since this finding, PCT has been shown in several studies to have a high sensitivity and specificity for indicating systemic bacterial infections. During infection PCT is secreted into the bloodstream without increasing calcitonin. PCT has been shown prospectively to only be elevated in patients with bacterial infections while remaining consistently low in patients infected with viruses or other inflammatory processes. Often when insulted, the body utilizes proteins and metabolic products, and the changes noted in these substances are often used as markers of inflammation. Unlike erythryocyte sedimentation rate (ESR) and C-reactive protein (CRP), PCT remains low during these inflammatory states. Furthermore, it has been shown that PCT levels increase earlier after stimulation (3-6hrs) compared to C-reactive protein (12-24hrs), indicating PCT can be utilized to rapidly detect bacterial infections. Normal PCT levels in adults are less than 0.1 ng/mL while PCT values greater than 0.5ng/mL have been determined to be predictive of bacterial infection. PCT has been evaluated in several clinical scenarios to help determine a bacterial versus a non-bacterial source of infection, however, to our knowledge, the effects of hemorrhagic stroke on PCT are not yet known. Determining the natural history of PCT in a hemorrhagic stroke patient would provide beneficial information as to whether PCT can be used as a biomarker in this population to help differentiate a bacterial from a non-bacterial cause of hyperthermia.
Please refer to this study by its ClinicalTrials.gov identifier: NCT01498705
|United States, West Virginia|
|Charleston Area Medical Center|
|Charleston, West Virginia, United States, 25301|
|Principal Investigator:||Douglas W Haden, MD||WVU School of Medicine/Charleston Division|