非通气肺区的低氧性肺血管收缩导致了对吸入一氧化氮的血流动力学和气体交换反应的差异。

Hypoxic pulmonary vasoconstriction in nonventilated lung areas contributes to differences in hemodynamic and gas exchange responses to inhalation of nitric oxide.

作者信息

Benzing A, Mols G, Brieschal T, Geiger K

机构信息

Department of Anesthesiology and Intensive Care Medicine, University of Freiburg, Germany.

出版信息

Anesthesiology. 1997 Jun;86(6):1254-61. doi: 10.1097/00000542-199706000-00005.

DOI:10.1097/00000542-199706000-00005

PMID:9197293

Abstract

BACKGROUND

Enhancement of hypoxic pulmonary vasoconstriction (HPV) in nonventilated lung areas by almitrine increases the respiratory response to inhaled nitric oxide (NO) in patients with acute respiratory distress syndrome (ARDS). Therefore the authors hypothesized that inhibition of HPV in nonventilated lung areas decreases the respiratory effects of NO.

METHODS

Eleven patients with severe ARDS treated by venovenous extracorporeal lung assist were studied. Patients' lungs were ventilated at a fraction of inspired oxygen (F[I(O2)]) of 1.0. By varying extracorporeal blood flow, mixed venous oxygen tension (P[O2]; partial oxygen pressure in mixed venous blood [PV(O2)]) was adjusted randomly to four levels (means, 47, 54, 64 and 84 mmHg). Extracorporeal gas flow was adjusted to prevent changes in mixed venous carbon dioxide tension [PV(CO2)]). Hemodynamic and gas exchange variables were measured at each level before, during, and after 15 ppm NO.

RESULTS

Increasing PV(O2) from 47 to 84 mmHg resulted in a progressive decrease in lung perfusion pressure (PAP-PAWP; P < 0.05) and pulmnonary vascular resistance index (PVRI; P < 0.05) and in an increase in intrapulmonary shunt (Q[S]/Q[T]; P < 0.05). PV(CO2) and cardiac index did not change. Whereas the NO-induced reduction in PAP-PAWP was smaller at high PV(O2), NO-induced decrease in Q(S)/Q(T) was independent of baseline PV(O2). In response to NO, arterial P(O2) increased more and arterial oxygen saturation increased less at high compared with low PV(O2).

CONCLUSION

In patients with ARDS, HPV in nonventilated lung areas modifies the hemodynamic and respiratory response to NO. The stronger the HPV in nonventilated lung areas the more pronounced is the NO-induced decrease in PAP-PAWP. In contrast, the NO-induced decrease in Q(S)/Q(T) is independent of PV(O2) over a wide range of PV(O2) levels. The effect of NO on the arterial oxygen tension varies with the level of PV(O2) by virtue of its location on the oxygen dissociation curve.

摘要

背景

烯丙哌三嗪增强非通气肺区的低氧性肺血管收缩（HPV），可增加急性呼吸窘迫综合征（ARDS）患者对吸入一氧化氮（NO）的呼吸反应。因此，作者推测抑制非通气肺区的HPV会降低NO的呼吸效应。

方法

对11例接受静脉-静脉体外肺辅助治疗的重症ARDS患者进行研究。患者肺部以吸入氧分数（F[I(O2)]）为1.0进行通气。通过改变体外血流量，将混合静脉血氧分压（P[O2]；混合静脉血中的氧分压[PV(O2)]）随机调整至四个水平（均值分别为47、54、64和84 mmHg）。调整体外气体流量以防止混合静脉血二氧化碳分压[PV(CO2)]发生变化。在15 ppm NO吸入前、吸入期间和吸入后，在每个水平测量血流动力学和气体交换变量。

结果

将PV(O2)从47 mmHg增加至84 mmHg导致肺灌注压（PAP - PAWP；P < 0.05）和肺血管阻力指数（PVRI；P < 0.05）逐渐降低，肺内分流（Q[S]/Q[T]；P < 0.05）增加。PV(CO2)和心脏指数未发生变化。虽然在高PV(O2)时，NO诱导的PAP - PAWP降低幅度较小，但NO诱导的Q(S)/Q(T)降低与基线PV(O2)无关。与低PV(O2)相比，在高PV(O2)时，对NO的反应中，动脉P(O2)升高更多，动脉血氧饱和度升高更少。

结论

在ARDS患者中，非通气肺区的HPV会改变对NO的血流动力学和呼吸反应。非通气肺区的HPV越强，NO诱导的PAP - PAWP降低越明显。相反，在较宽的PV(O2)水平范围内，NO诱导的Q(S)/Q(T)降低与PV(O2)无关。NO对动脉血氧张力的影响因其在氧解离曲线上的位置而随PV(O2)水平变化。