Abstract
Objective To investigate the resuscitation effect of aortic balloon occlusion (ABO) on the traumatic cardiac arrest (TCA) in swine. Methods Twenty-seven male domestic swine weighing (32.7±3.8)kg were utilized. After 40% of estimated blood volume was removed within 20 minutes, the animals were subjected to 5 minutes of untreated ventricular fibrillation and then 5 minutes of cardiopulmonary resuscitation. Additionally, fluid resuscitation was initiated coincident with the beginning of cardiopulmonary resuscitation. The animals were randomly divided into model group (n=12) and ABO group (n=15). Once cardiopulmonary resuscitation was implemented, aortic balloon was concurrently inflated to stop the blood flow of descending thoracic aorta at the level of the diaphragm in the ABO group. In the model group, aortic balloon was placed in the same position without inflation. During cardiopulmonary resuscitation, the changes of coronary perfusion pressure (CPP), forehead's regional cerebral oxygen saturation (rSO2) and pressure of end-tidal CO2 (PETCO2) were continuously monitored, and the rate of return of spontaneous circulation (ROSC), duration of cardiopulmonary resuscitation, number of shocks and dose of epinephrine were recorded. At 5 minutes after successful resuscitation, the levels of arterial blood gas, lactate and jugular venous blood oxygen saturation (SjvO2) were measured. Results Compared with the model group, the values of CPP, rSO2 and PETCO2 during cardiopulmonary resuscitation were significantly increased in the ABO group [CPP: (33.5±5.6)mmHg vs. (23.1±5.2)mmHg at 1 minute, (35.3±6.0)mmHg vs. (26.8±7.4)mmHg at 2 minutes, (36.3±6.3)mmHg vs. (28.2±6.3)mmHg at 3 minutes, (40.1±7.1)mmHg vs. (30.5±6.2)mmHg at 4 minutes, (38.1±7.5)mmHg vs. (29.8±5.3)mmHg at 5 minutes; rSO2: (45.4±5.2)% vs. (39.2±5.1)% at 1 minute, (47.2±3.6)% vs. (42.0±6.4)% at 2 minutes, (47.7±3.0)% vs. (41.5±5.4)% at 3 minutes, (47.0±2.5)% vs. (42.1±5.9)% at 4 minutes, (47.1±2.0)% vs. (41.5±7.4)% at 5 minutes; PETCO2: (17.0±3.5)mmHg vs. (12.7±4.2)mmHg at 1 minute, (18.5±3.7)mmHg vs. (14.5±2.7)mmHg at 2 minutes, (20.7±5.3)mmHg vs. (15.5±3.2)mmHg at 3 minutes, (18.7±4.5)mmHg vs. (14.9±3.5)mmHg at 4 minutes, (18.2±3.2)mmHg vs. (14.5±4.2)mmHg at 5 minutes] (all P<0.05). The rate of ROSC was significantly higher in the ABO group than in the model group[100%(15/15) vs. 75%(9/12)] (P<0.05). Additionally, shorter duration of cardiopulmonary resuscitation, less number of shocks and lower doses of epinephrine were observed in the ABO group when compared with the model group[duration of cardiopulmonary resuscitation: 5(5, 5)minutes vs. 5(5, 12.5)minutes, number of shocks: 1(1, 1)times vs. 1(1, 4)times, dose of epinephrine: 0.62(0.62, 0.74)mg vs. 0.64(0.59, 2.59)mg] (all P<0.05). At 5 minutes after resuscitation, the level of arterial lactate was significantly decreased and the value of SjvO2 was significantly increased in the ABO group compared with the model group[Lactate: (9.6±0.8)mmol/L vs. (10.8±1.4)mmol/L; SjvO2: (50.0±8.6)% vs. (37.9±16.3)%] (both P<0.05). Conclusions In a swine model of TCA, ABO can increase cardiac and cerebral perfusion during cardiopulmonary resuscitation and improve the efficacy of cardiopulmonary resuscitation. It might provide a novel and effective method for the resuscitation of TCA in the clinical setting. Key words: Heart arrest; Cardiopulmonary resuscitation; Aortic balloon occlusion
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