Sepsis is life-threatening and dysregulated response to infection that results in endothelial activation and dysfunction that leads to systemic microvascular leak and multiple-organ failure. This study will identify patients that have sepsis with thrombocytopenia and randomize them to receive a unit of platelets or an equivalent volume of saline.
Sepsis is life-threatening and dysregulated response to infection that results in endothelial activation and dysfunction that leads to systemic microvascular leak and multiple-organ failure. Emerging evidence indicates that platelets occupy a central role in maintaining the balance between vascular health and the response to environmental changes and vascular injury. Platelets are essential for vascular development and required for normal endothelial integrity. Platelets also function at the interface between thrombosis and inflammation. This study will identify patients that have sepsis with thrombocytopenia and randomize them to receive a unit of platelets or an equivalent volume of saline. Our overall hypotheis is that normal platelet function is required to maintain vascular integrity and can be at least partially restored over the first 24 hours by platelet transfusion in septic patients with thrombocytopenia.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
University of Kentucky
Lexington, Kentucky, United States
Biomarkers for vascular integrity
The ratio of Angiopoietin-2 to Angiopoietin-1 is used as a measurement of vascular integrity. We will determine the change in this ratio by measuring Angiopoietin-2 (pg/mL) and Angiopoietin-1 (pg/mL) at baseline (before infusion) and 24 hours after infusion and compare between the patients receiving a unit of platelets versus the patients receiving saline.
Time frame: 24 Hours
Biomarkers for inflammation
IL-6 and TNF-alpha are commonly measured as biomarkers for inflammation. We will measure the change in concentrations (pg/mL) of IL-6 and TNF-alpha between baseline and 24 hours and compare between the population receiving a unit of platelets versus the population receiving saline.
Time frame: 24 Hours
Transfusion effects on cytokines
Changes in cytokine (e.g. IL-1beta) concentrations (pg/mL) will be measured at baseline (prior to transfusion) and up to 72 hours after transfusion and compared between the population receiving a unit of platelets versus the population receiving saline.
Time frame: 72 Hours
Incidence of Serious Adverse Events
Each subject will be monitored for serious adverse events (e.g. death, rehospitalization) for 30 days following the platelet/saline transfusion. Outcome data will be compared between the platelet transfusion arm and the placebo arm.
Time frame: 30 days
Transfusion effects on coagulation
Changes in a biomarker for coagulation (prothrombin fragment 1-2) will be measured (pg/mL) at baseline (prior to transfusion) and up to 72 hours after transfusion and compared between the population receiving a unit of platelets versus the population receiving saline.
Time frame: 72 Hours
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Transfusion effects on platelet number
Changes in platelet count (platelets/mm\^3 blood) at baseline (prior to transfusion) and up to 72 hours after transfusion and compared between the population receiving a unit of platelets versus the population receiving saline.
Time frame: 72 Hours