Combined, Converted, and Prophylactic Use of Resuscitative Endovascular Balloon Occlusion of the Aorta for Severe Torso Trauma: A Retrospective Study

Background: Resuscitative endovascular balloon occlusion of the aorta (REBOA) is used as an intra-aortic balloon occlusion method in Japan; however, the protocols for its effective use in different pathological conditions remain unclear. This study aimed to summarise the strategies of REBOA use in severe torso trauma.Methods: Twenty-nine cases of REBOA for torso trauma treated at our hospital over 5 years were divided into the shock (n=12), cardiopulmonary arrest (CPA) (n=13), and non-shock (n=4) groups. We retrospectively examined patient characteristics, trauma mechanism, injury site, severity score, intervention, survival rates at 24 hours, and intervention details in each group.Results: In the shock group, 9 and 3 patients survived and died within 24 hours, respectively; time to intervention (56.6 vs 130.7 min, p=0.346) and total occlusion time (40.2 vs 337.7 min, p=0.009) were both shorter in surviving patients than in the casualties. In the CPA group, 10 patients were converted from resuscitative thoracotomy with aortic cross-clamp (RTACC); a single patient survived. Four patients in the non-shock group survived, having received prophylactic REBOA.Conclusions: The efficacy of REBOA for severe torso trauma depends on patient condition. In the shock group, time to intervention and total occlusion time correlated with survival. The use of REBOA with definitive haemostasis and minimum delays to intervention may improve outcomes. Patients with CPA are at a high risk of mortality; however, conversion from RTACC may be effective in some cases. Prophylactic intervention in the non-shock group may help achieve immediate definitive haemostasis.

Use of a disposable vascular pressure device to guide balloon inflation of resuscitative endovascular balloon occlusion of the aorta: a bench study

Resuscitative endovascular balloon occlusion of the aorta (REBOA) for rapid hemorrhage control is increasingly being used in trauma management. Its beneficial hemodynamic effects on unstable patients beyond temporal hemostasis has led to growing interest in its use in other patient populations, such as during cardiac arrest from nontraumatic causes. The ability to insert the catheters without fluoroscopic guidance makes the technique available in the prehospital setting. However, in addition to correct positioning, challenges include reliably achieving aortic occlusion while minimizing the risk of balloon rupture. Without fluoroscopic control, inflation of the balloon relies on estimated aortic diameters and on the disappearing pulse in the contralateral femoral artery. In the case of cardiac arrest or absent palpable pulses, balloon inflation is associated with excess risk of overinflation and adverse events (vessel damage, balloon rupture). In this bench study, we examined how the pressure in the balloon is related to the surrounding blood pressure and the balloon's contact with the vessel wall in two sets of experiments, including a pulsatile circulation model. With this data, we developed a rule of thumb to guide balloon inflation of the ER-REBOA catheter with a simple disposable pressure-reading device (COMPASS). We recommend slowly filling the balloon with saline until the measured balloon pressure is 160 mmHg, or 16 mL of saline have been used. If after 16 mL the balloon pressure is still below 160 mmHg, saline should be added in 1-mL increments, which increases the pressure target about 10 mmHg at each step, until the maximum balloon pressure is reached at 240 mmHg (= 24 mL inflation volume). A balloon pressure greater than 250 mmHg indicates overinflation. With this rule and a disposable pressure-reading device (COMPASS), ER-REBOA balloons can be safely filled in austere environments where fluoroscopy is unavailable. Pressure monitoring of the balloon allows for recognition of unintended deflation or rupture of the balloon.

Resuscitative Endovascular Balloon Occlusion of the Aorta in the Management of a Gunshot Wound and Rupture of the Uterus

Trauma is the leading cause of non-obstetrical maternal death. A 19-year-old woman at 20 weeks’ gestation was brought to the emergency room after suffering a gunshot wound to the lower abdomen. Upon arrival, she was hemodynamically stable and imaging was obtained. CT revealed a rupture of the uterus with a partially extrauterine fetus, and the patient was immediately taken for an explorative laparotomy. Prior to the surgical start, the patient’s blood pressure declined and, subsequently, a resuscitative endovascular balloon occlusion of the aorta (REBOA) was placed. The fetus and placenta were delivered and both uterine arteries and the inferior epigastric artery were ligated. Following an unremarkable postoperative course, she was discharged on hospital day 17. The mainstay approach to trauma in pregnancy should be to utilize focused imaging techniques to assess extent of trauma and provide adequate circulation to vital organs. Aortic balloon occlusion may be considered as a viable strategy to enhance resuscitation.