A Novel Approach to Noncompressible Torso Hemorrhage Using a Silicone-Based Polymer Universal Combat Matrix

Battlefield trauma necessitates prompt hemostatic intervention to mitigate fatalities resulting from critical blood loss. Insights from Operation Enduring Freedom and Operation Iraqi Freedom emphasize the limitations of conventional methods, such as tourniquets, especially in noncompressible torso hemorrhage. Despite advancements in hemostatic agents, the evolving dynamics of multidomain operations necessitate novel, lightweight strategies for hemorrhage control. This study investigates the Silicone-Based Polymer (SBP) Universal Combat Matrix (UCM) by SiOxMed, a multimodal matrix exhibiting efficacy in lethal hemorrhage models. The study evaluates UCM's multiday hemostatic capabilities in a noncompressible torso hemorrhage model, offering pivotal insights for potential deployment in battlefield trauma. This research was performed under Institutional Animal Care and Use Committee approval and was designed to replicate austere conditions in an off-site enclosed facility. Yorkshire Hampshire swine underwent baseline assessments and anesthesia induction (n = 3). A Grade IV liver injury was made by incising X-shaped lesions, each measuring 4 cm × 2.5 cm, into the diaphragmatic surface of the left and right middle lobes using a scalpel blade, resulting in a lesion region of approximately 3 cm × 6 cm × 3 cm, followed by 30 seconds of uncontrolled bleeding. The injuries were then treated with SBP. Intensive care unit monitoring for 1 hour ensured sustained hemostasis, followed by 48 hours of postanesthesia monitoring and then a return to the operating table to visualize sustained hemostasis. Posteuthanasia, liver tissue underwent histological assessments to evaluate the hemorrhagic interface and liver tissue reactivity. The average time to hemostatic control was 247.3 ± 71.3 seconds. Stable heart rate (81.3 ± 10.0) and respiratory rate (31.7 ± 16.5) were maintained during intensive care unit monitoring. All swine survived the 1-hour anesthesia monitoring period and the subsequent 48-hour monitoring (average survival time, 48.0 hours ± 0.0, n = 3). Visualization of the abdominal cavity at 48 hours revealed no hemorrhage. Histological assessment demonstrated aligned red blood cells and stratified layers of fibrin at the hemorrhagic interface. Masson's Trichrome analysis demonstrated a reactive and regenerative scenario 48 hours postinjury, with a collagen membrane demarcating uninjured and exposed liver regions, along with a comprehensive stromal response. In conclu