Abstract
ABSTRACT Resusciative endovascular balloon aortic occlusion (REBOA) can be used in various surgical operations, especially in patients with hypotension and shock caused by traumatic main vascular rupture and massive haemorrhage. However, the hydrodynamic effects of surgery on aortic haemodynamics and organ perfusion are still unclear. Herein, computational fluid dynamic methods were used to evaluate the effect of balloon expansion and that of balloon-occluded aortic ratios on haemodynamics. The simulation shows that the balloon reduces the flow rate from the heart to the ruptured aorta. While reducing the flow rate of the aortic branches downstream of the balloon under conditions with fixed cardiac output, the balloon will increase the flow rate of the aortic branches upstream of the balloon. And the flow in the diastolic phase is more complicated than that of the systolic phase, and the vortex generated upstream of the balloon is more evident than that of the formed downstream. Moreover, when the inflation rate of the balloon changes rapidly, the flow rate of blood at the balloon changes suddenly accordingly, which generates a large additional pressure on the balloon. The pressure will spread upstream, thereby generating a blood hammer effect on the blood vessel wall.
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