连续性静脉-静脉血液滤过对实验性猪胰腺炎血流动力学及氧代谢的改善作用
Amelioration of hemodynamics and oxygen metabolism by continuous venovenous hemofiltration in experimental porcine pancreatitis.
作者信息
Wang Hao, Zhang Zhen-Huan, Yan Xiao-Wen, Li Wei-Qin, Ji Da-Xi, Quan Zhu-Fu, Gong De-Hua, Li Ning, Li Jie-Shou
机构信息
Department of Nephrology, Nanjing University School of Medicine, Nanjing, Jiangsu Province, China.
出版信息
World J Gastroenterol. 2005 Jan 7;11(1):127-31. doi: 10.3748/wjg.v11.i1.127.
AIM
To investigate the potential role of continuous venovenous hemofiltration (CVVH) in hemodynamics and oxygen metabolism in pigs with severe acute pancreatitis (SAP).
METHODS
SAP model was produced by intraductal injection of sodium taurocholate (4%, 1 mL/kg body weight (BW)) and trypsin (2 U/kg BW). Animals were allocated either to untreated controls as group 1 or to one of two treatment groups as group 2 receiving a low-volume CVVH (20 mL/(kg.h)), and group 3 receiving a high-volume CVVH (100 (mL/kg.h)). Swan-Ganz catheter was inserted during the operation. Heart rate, arterial blood pressure, cardiac output, mean pulmonary arterial pressure, pulmonary arterial wedge pressure, central venous pressure, systemic vascular resistance, oxygen delivery, oxygen consumption, oxygen extraction ratio, as well as survival of pigs were evaluated in the study.
RESULTS
Survival time was significantly prolonged by low-volume and high-volume CVVHs, which was more pronounced in the latter. High-volume CVVH was significantly superior compared with less intensive treatment modalities (low-volume CVVH) in systemic inflammatory reaction protection. The major hemodynamic finding was that pancreatitis-induced hypotension was significantly attenuated by intensive CVVH (87.4+/-12.5 kPa vs 116.3+/-7.8 kPa, P<0.01). The development of hyperdynamic circulatory failure was simultaneously attenuated, as reflected by a limited increase in cardiac output, an attenuated decrease in systemic vascular resistance and an elevation in oxygen extraction ratio.
CONCLUSION
CVVH blunts the pancreatitis-induced cardiovascular response and increases tissue oxygen extraction. The high-volume CVVH is distinctly superior in preventing sepsis-related hemodynamic impairment.
目的
探讨持续静静脉血液滤过(CVVH)在重症急性胰腺炎(SAP)猪的血流动力学和氧代谢中的潜在作用。
方法
通过胰胆管内注射牛磺胆酸钠(4%,1 mL/kg体重(BW))和胰蛋白酶(2 U/kg BW)制备SAP模型。动物被分为两组,一组为未治疗的对照组(第1组),另外两组为治疗组,第2组接受小剂量CVVH(20 mL/(kg·h)),第3组接受大剂量CVVH(100(mL/kg·h))。手术过程中插入Swan-Ganz导管。在研究中评估猪的心率、动脉血压、心输出量、平均肺动脉压、肺动脉楔压、中心静脉压、全身血管阻力、氧输送、氧消耗、氧摄取率以及猪的存活率。
结果
小剂量和大剂量CVVH均显著延长了存活时间,大剂量CVVH更为明显。在全身炎症反应保护方面,大剂量CVVH显著优于强度较低的治疗方式(小剂量CVVH)。主要的血流动力学发现是,强化CVVH显著减轻了胰腺炎诱导的低血压(87.4±12.5 kPa对116.3±7.8 kPa,P<0.01)。同时,高动力循环衰竭的发展也得到缓解,表现为心输出量增加有限、全身血管阻力下降减弱以及氧摄取率升高。
结论
CVVH减轻了胰腺炎诱导的心血管反应并增加了组织氧摄取。大剂量CVVH在预防脓毒症相关的血流动力学损害方面明显更优。
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