The Cardiac Physiology Underpinning Exsanguination Cardiac Arrest: Targets for Endovascular Resuscitation

Exsanguination leading to cardiac arrest is the terminal phase of uncontrolled hemorrhage. Resuscitative interventions have focused on preload and afterload support. Outcomes remain poor due to several factors but poor coronary perfusion undoubtedly plays a role. The aim of this study is to characterize the relationship between arterial pressure and flow during hemorrhage in an effort to better describe the terminal phases of exsanguination. Male swine weighing 60 kg to 80 kg underwent splenectomy and instrumentation followed by a logarithmic exsanguination until asystole. Changes in hemodynamic parameters over time were compared using one-way, repeated measures analysis of variance. Nine animals weighing 69 ± 15 kg were studied. Asystole occurred at 53 ± 13 min when 52 ± 11% of total blood volume has been shed. The greatest fall in mean hemodynamic indices were noted in the first 15 min: SBP (80–42 mm Hg, P = 0.02), left ventricular end-diastolic volume (94–52 mL, P = 0.04), cardiac output (4.8–2.4 L/min, P = 0.03), coronary perfusion pressure (57–30 mm Hg, P = 0.01), and stroke volume (60–25 mL, P = 0.02). This corresponds to the greatest rate of exsanguination. Organized cardiac activity was observed until asystole without arrythmias. Coronary flow was relatively preserved throughout the study, with a precipitous decline once mean arterial pressure was less than 20 mm Hg, leading to asystole. In this model, initia...
Source: Shock - Category: Emergency Medicine Tags: Basic Science Aspects Source Type: research