Boston U S, Slater J M, Orszulak T A, Cook D J
Department of Surgery, Mayo Clinic and Foundation, Rochester, Minnesota 55905, USA.
Ann Thorac Surg. 2001 Jan;71(1):260-4. doi: 10.1016/s0003-4975(00)01883-x.
Relative to the nonbypass state, cardiopulmonary bypass may decrease whole-body oxygen (O2) delivery. We predicted that during cardiopulmonary bypass, a hierarchy of regional blood flow and O2 delivery could be characterized.
In 8 46.5 +/- 1.2-kg pigs, fluorescent microspheres were used to determine blood flow and O2 delivery to five organ beds before and during 37 degrees C cardiopulmonary bypass at four randomized bypass flows (1.4, 1.7, 2.0, and 2.3 L/min/m2). At completion, 18 tissue samples were obtained from the cerebral cortex (n = 4), renal cortex (n = 2), renal medulla (n = 2), pancreas (n = 3), small bowel (n = 3), and limb muscle (n = 4) for regional blood flow determination.
At conventional cardiopulmonary bypass flow (2.3 L/min/m2), whole-body O2 delivery was reduced by 44 +/- 6% relative to the pre-cardiopulmonary bypass state (p < 0.05). Over a range of cardiopulmonary bypass flows (2.3 to 1.7 L/min/m2), brain and kidney maintained their perfusion. Blood flow and O2 delivery to both regions were reduced when the cardiopulmonary bypass flow was reduced to 1.4 L/min/m2. However, perfusion and O2 delivery to other visceral organs (pancreas, small bowel) and skeletal muscle showed pump flow dependency over the range of flows tested.
This study characterizes the organ-specific hierarchy of blood flow and O2 distribution during cardiopulmonary bypass. These dynamics are relevant to clinical decisions for perfusion management.
相对于非体外循环状态,体外循环可能会降低全身氧输送。我们预测,在体外循环期间,可以确定区域血流和氧输送的层级关系。
在8头体重为46.5±1.2千克的猪中,使用荧光微球在37℃体外循环前后,以四种随机的体外循环流量(1.4、1.7、2.0和2.3升/分钟/平方米)测定五个器官床的血流和氧输送。实验结束时,从大脑皮质(n = 4)、肾皮质(n = 2)、肾髓质(n = 2)、胰腺(n = 3)、小肠(n = 3)和肢体肌肉(n = 4)获取18个组织样本用于区域血流测定。
在传统体外循环流量(2.3升/分钟/平方米)下,全身氧输送相对于体外循环前状态降低了44±6%(p < 0.05)。在一系列体外循环流量(2.3至1.7升/分钟/平方米)范围内,脑和肾维持其灌注。当体外循环流量降至1.4升/分钟/平方米时,两个区域的血流和氧输送均降低。然而,在测试的流量范围内,其他内脏器官(胰腺、小肠)和骨骼肌的灌注及氧输送表现出对泵流量的依赖性。
本研究描述了体外循环期间血流和氧分布的器官特异性层级关系。这些动态变化与灌注管理的临床决策相关。
