Josephine E Hees, William J Cleveland, Claudius Balzer, Matthias L Riess
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Controls (<i>n</i> = 6) were ventilated with 65% N<sub>2</sub>, 5% CO<sub>2</sub>, 30% O<sub>2</sub>, and Argon lungs (<i>n</i> = 7) with 65% Argon, 5% CO<sub>2</sub>, and 30% O<sub>2</sub>. Pulmonary mean arterial pressure (pMAP) and airway pressure (AWP) were recorded continuously, and pulmonary vascular resistance (PVR) was calculated. Following baseline readings, phenylephrine, a pulmonary vasoconstrictor, was perfused at increasing concentrations from 10<sup>-7</sup> to 10<sup>-3</sup> mol/L every 5 min. Statistics: Student's <i>t</i> test, α = 0.05. Argon led to significantly lower pMAPs and PVRs, independent of AWP. Thus, it significantly dilated pre-constricted pulmonary vessels in an ex vivo lung model. 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An inhaled pulmonary vasodilator could attenuate vasoconstriction and, therefore, increase cardiac output. We used rat isolated lungs to test if inhaled Argon leads to pulmonary vasodilation in phenylephrine-treated lungs. Lungs of 13 adult male Sprague-Dawley rats were isolated, ventilated, and perfused. Pulmonary artery and left atrium were cannulated and lungs perfused at constant flow with 4% albumin physiological saline solution. Controls (<i>n</i> = 6) were ventilated with 65% N<sub>2</sub>, 5% CO<sub>2</sub>, 30% O<sub>2</sub>, and Argon lungs (<i>n</i> = 7) with 65% Argon, 5% CO<sub>2</sub>, and 30% O<sub>2</sub>. Pulmonary mean arterial pressure (pMAP) and airway pressure (AWP) were recorded continuously, and pulmonary vascular resistance (PVR) was calculated. Following baseline readings, phenylephrine, a pulmonary vasoconstrictor, was perfused at increasing concentrations from 10<sup>-7</sup> to 10<sup>-3</sup> mol/L every 5 min. Statistics: Student's <i>t</i> test, α = 0.05. Argon led to significantly lower pMAPs and PVRs, independent of AWP. Thus, it significantly dilated pre-constricted pulmonary vessels in an ex vivo lung model. 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引用次数: 0
摘要
在心肺复苏过程中,由于缺氧和高碳酸血症导致的肺血管收缩会限制从右心流向左心的血流,从而导致心输出量降低,进一步抑制充分供氧以及分配含氧血液和药物的能力。吸入肺血管扩张剂可减轻血管收缩,从而增加心输出量。我们使用大鼠离体肺来测试吸入氩气是否会导致苯肾上腺素处理过的肺部出现肺血管扩张。对 13 只成年雄性 Sprague Dawley 大鼠的肺进行分离、通气和灌注。插管肺动脉和左心房,用 4% 的白蛋白生理盐水以恒定流量灌注肺部。对照组(n=6)使用 65% N2、5% CO2 和 30% O2 进行通气,氩肺组(n=7)使用 65%氩气、5% CO2 和 30% O2 进行通气。连续记录肺平均动脉压(pMAP)和气道压(AWP),并计算肺血管阻力(PVR)。在基线读数之后,每 5 分钟灌注一次肺血管收缩剂苯肾上腺素,浓度从 10-7 M 增加到 10-3 M。统计数据:学生 t 检验,α=0.05。氩气导致 pMAPs 和 PVRs 明显降低,与 AWP 无关。因此,在体外肺模型中,氩气能明显扩张收缩前的肺血管。在复苏期间给予氩气,可能有助于增加心输出量。
Inhaled argon dilates pulmonary vasculature in rat isolated lungs.
During cardiopulmonary resuscitation, pulmonary vasoconstriction due to hypoxia and hypercarbia restricts blood flow from the right to the left heart, resulting in reduced cardiac output that further inhibits adequate oxygenation and the ability to distribute oxygenated blood and medications. An inhaled pulmonary vasodilator could attenuate vasoconstriction and, therefore, increase cardiac output. We used rat isolated lungs to test if inhaled Argon leads to pulmonary vasodilation in phenylephrine-treated lungs. Lungs of 13 adult male Sprague-Dawley rats were isolated, ventilated, and perfused. Pulmonary artery and left atrium were cannulated and lungs perfused at constant flow with 4% albumin physiological saline solution. Controls (n = 6) were ventilated with 65% N2, 5% CO2, 30% O2, and Argon lungs (n = 7) with 65% Argon, 5% CO2, and 30% O2. Pulmonary mean arterial pressure (pMAP) and airway pressure (AWP) were recorded continuously, and pulmonary vascular resistance (PVR) was calculated. Following baseline readings, phenylephrine, a pulmonary vasoconstrictor, was perfused at increasing concentrations from 10-7 to 10-3 mol/L every 5 min. Statistics: Student's t test, α = 0.05. Argon led to significantly lower pMAPs and PVRs, independent of AWP. Thus, it significantly dilated pre-constricted pulmonary vessels in an ex vivo lung model. When given during resuscitation, this might aid to increase cardiac output.
期刊介绍:
Published since 1929, the Canadian Journal of Physiology and Pharmacology is a monthly journal that reports current research in all aspects of physiology, nutrition, pharmacology, and toxicology, contributed by recognized experts and scientists. It publishes symposium reviews and award lectures and occasionally dedicates entire issues or portions of issues to subjects of special interest to its international readership. The journal periodically publishes a “Made In Canada” special section that features invited review articles from internationally recognized scientists who have received some of their training in Canada.
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