Abstract

Introduction: Recent evidence has demonstrated that closed chest compressions (CC) directly over the left ventricle (LV) during traumatic cardiopulmonary arrest (TCPA) improve hemodynamics and return of spontaneous circulation (ROSC) when compared to traditional chest compressions. Selective Aortic Arch Perfusion (SAAP) is also able to improve hemodynamics as well as control hemorrhage during TCPA. Hypothesis: We hypothesized that LV compressions would increase ROSC when compared to traditional compressions in an animal model of TCPA where SAAP was being used. We also compared LV and Traditional compressions with SAAP to historical controls that received compressions without SAAP. Methods: Transthoracic echo was used to mark the location of the aortic root and the center of the left ventricle on animals (n=24, 12 in each arm) which were randomized to receive chest compressions in one of the two locations. One third of each animal’s blood volume was removed and ventricular fibrillation (VF) was induced to simulate traumatic cardiac arrest. After a period of ten minutes of VF, basic life support (BLS) with mechanical CPR was initiated and performed for ten minutes followed by advanced life support (ALS) and blood transfusion for an additional ten minutes. The SAAP balloon was inflated at minute 6 of BLS. Hemodynamic variables were averaged every two minutes. The same model was used for historical controls (n=26, 13 in each arm) without the use of SAAP, so comparisons were treated as a single study with a factorial design. Results: There were no differences in hemodynamic variables, ROSC (p=0.67) or survival (p=0.64) between SAAP groups. However, when the LV animals were compared to historic controls without SAAP, LV animals had higher ROSC (p=0.02) and survival rates (p=0.04) than Traditional animals. Conclusions: SAAP does not appear to show a synergistic effect with LV compressions, however, SAAP combined with LV compressions improves ROSC and survival when compared to Traditional compressions in our swine model of TCPA. More investigation into SAAP and compression position should be studied to improve treatment of TCPA.

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