Mann C, Boccara G, Pouzeratte Y, Eliet J, Serradel-Le Gal C, Vergnes C, Bichet D G, Guillon G, Fabre J M, Colson P
Laboratoires d'Anesthesiologie et de Chirurgie Experimentale Faculté de Médecine, Montpellier, France.
Anesth Analg. 1999 Aug;89(2):278-83. doi: 10.1097/00000539-199908000-00003.
We assessed the role of vasopressin (VP) for the hemodynamic response to pneumoperitoneum in pigs. Four groups of anesthetized pigs were investigated. Nine pigs were intraabdominally insufflated with CO2 and eight were intraabdominally insufflated with argon; eight pigs received an i.v. injection of 1 mg/kg SR 49059, a VP antagonist, before CO2 insufflation; and six pigs received SR 49059 alone. Hemodynamics, plasma concentrations of VP and vasoactive hormones, and Paco2 were measured. Data were analyzed by using analysis of variance, Student's t-test, and Mann-Whitney U-test. Five minutes after insufflation, changes in systemic vascular resistance (SVR) were significantly correlated with changes in VP (r = 0.72; P = 0.005) but not with changes in epinephrine, norepinephrine, renin activity, or Paco2. SVR increased during CO2 insufflation but not during argon insufflation or CO2 insufflation with a preceding infusion of SR 49059. The SR 49059 injection itself resulted in increases in heart rate and cardiac output and decreases in blood pressure and SVR. We conclude that, during CO2 pneumoperitoneum in pigs, absorbed CO2 initiates a pathophysiological process that stimulates VP release. Hence, VP most likely plays a key role in the hemodynamic response to a CO2-induced pneumoperitoneum.
Intraabdominal insufflation of CO2 is associated with hemodynamic and hormonal changes. Investigating CO2 and argon-insufflated pigs and using a vasopressin antagonist, we found that CO2 insufflation released vasopressin, which, in turn, induced hemodynamic perturbances.
我们评估了血管加压素(VP)在猪对气腹的血流动力学反应中的作用。对四组麻醉猪进行了研究。九只猪经腹腔注入二氧化碳,八只猪经腹腔注入氩气;八只猪在注入二氧化碳前静脉注射1mg/kg的SR 49059(一种VP拮抗剂);六只猪仅接受SR 49059。测量了血流动力学、血浆中VP和血管活性激素的浓度以及动脉血二氧化碳分压(Paco2)。数据采用方差分析、学生t检验和曼-惠特尼U检验进行分析。注入气体五分钟后,全身血管阻力(SVR)的变化与VP的变化显著相关(r = 0.72;P = 0.005),但与肾上腺素、去甲肾上腺素、肾素活性或Paco2的变化无关。在注入二氧化碳期间SVR升高,但在注入氩气期间或注入二氧化碳前输注SR 49059时SVR未升高。注射SR 49059本身导致心率和心输出量增加,血压和SVR降低。我们得出结论,在猪的二氧化碳气腹过程中,吸收的二氧化碳引发了一个刺激VP释放的病理生理过程。因此,VP很可能在对二氧化碳诱导的气腹的血流动力学反应中起关键作用。
腹腔内注入二氧化碳与血流动力学和激素变化有关。通过研究注入二氧化碳和氩气的猪并使用血管加压素拮抗剂,我们发现注入二氧化碳会释放血管加压素,进而引起血流动力学紊乱。
