Dry Fibrin Sealant Dressings Reduce Blood Loss, Resuscitation Volume, and Improve Survival in Hypothermic Coagulopathic Swine with Grade V Liver Injuries

Abstract

The majority of early trauma deaths are caused by uncontrolled hemorrhage, and are frequently complicated by hypothermic and dilutional coagulopathies. Any hemorrhage-control technique that achieves rapid hemostasis despite a coagulopathy should improve the outcome of these patients. We conducted this study to determine whether dry fibrin sealant dressings (DFSD) would stop bleeding from grade V liver injuries in swine that were hypothermic and coagulopathic. Nineteen swine weighing 39.7 kg (mean and 95% confidence interval, 36.3-43.1), underwent a 60% isovolemic, hypothermic exchange transfusion with 33[degree sign]C 6% hetastarch to produce a dilutional and hypothermic coagulopathy. The animals then received a grade V liver injury and one of three treatments: DFSD, conventional liver packing with gauze sponges, or immunoglobulin G (IgG) placebo sealant dressing (blinded control). All animals were resuscitated with lactated Ringer's solution to their preinjury mean arterial pressure. Blood loss after treatment, mean arterial pressure, resuscitation volume, hematologic variables, and core temperature were monitored for 1 hour. At the time of injury, core temperature = 33.3[degree sign]C (95% confidence interval, 33.2-33.4), hemoglobin concentration = 4.4 g/dL (4.2-4.6), platelet count = 132 x 105/[micro sign]L, (93-171), prothrombin time = 21.6 seconds (19.6-23.5), activated partial thromboplastin time = 25.2 seconds (range, 22.9-27.5 seconds), and fibrinogen = 83 mg/dL (range, 76-89 mg/dL) across treatments. The posttreatment blood loss in the DFSD group was 669 mL, (range, 353-1,268 mL), which was lower (p In swine with a grade V liver injury complicated by a dilutional and hypothermic coagulopathy, DFSD provided simple, rapid hemorrhage control, decreased fluid requirements, and improved survival.