Effects of inhaled nitric oxide and oxygen in high-altitude pulmonary edema

被引：76

作者：

Anand, IS ^{[1
]}

Prasad, BAK

Chugh, SS

Rao, KRM

Cornfield, DN

Milla, CE

Singh, N

Singh, S

Selvamurthy, W

机构：

[1] VA Med Ctr 111C, Dept Cardiol, Minneapolis, MN 55417 USA

[2] Univ Minnesota, Minneapolis, MN 55417 USA

[3] High Altitude Med Res Ctr, Ladakh, India

[4] Def Inst Physiol & Allied Sci, Delhi, India

来源：

CIRCULATION | 1998年 / 98卷 / 22期

关键词：

hypoxia; edema; pulmonary heart disease; hypertension; nitric oxide;

D O I：

10.1161/01.CIR.98.22.2441

中图分类号：

R5 [内科学];

学科分类号：

1002 ; 100201 ;

摘要：

Background-High-altitude pulmonary edema (HAPE) is characterized by pulmonary hypertension, increased pulmonary capillary permeability, and hypoxemia. Treatment is limited to descent to lower altitude and administration of oxygen. Methods and Results-We studied the acute effects of inhaled nitric oxide (NO), 50% oxygen, and a mixture of NO plus 50% oxygen on hemodynamics and gas exchange in 14 patients with HAPE. Each gas mixture was given in random order for 30 minutes followed by 30 minutes washout with room air. All patients had severe HAPE as judged by Lake Louise score (6.4+/-0.7), Pao(2) (35+/-3.1 mm Hg), and alveolar to arterial oxygen tension difference (AaDo(2)) (26+/-3 mm Hg). NO had a selective effect on the pulmonary vasculature and did not alter systemic hemodynamics. Compared with room air, pulmonary vascular resistance fell 36% with NO (P<0.001), 23% with oxygen (P<0.001 versus air, P<0.05 versus NO alone), and 54% with NO plus 50% oxygen (P<0.001 versus air, P<0.005 versus oxygen and versus NO). NO alone improved Pao(2) (+14%) and AaDo(2) (-31%). Compared with 50% oxygen alone, NO plus 50%, oxygen had a greater effect on AaDo(2) (-18%) and Pao(2) (+21%). Conclusions-Inhaled NO may have a therapeutic role in the management of HAPE, The combined use of inhaled NO and oxygen has additive effects on pulmonary hemodynamics and even greater effects on gas exchange. These findings indicate that oxygen and NO may act on separate but interactive mechanisms in the pulmonary vasculature.

引用

页码：2441 / 2445

页数：5

共 16 条

[1] Differential distribution of electrophysiologically distinct myocytes in conduit and resistance arteries determines their response to nitric oxide and hypoxia
Archer, SL
Huang, JMC
Reeve, HL
Hampl, V
Tolarova, S
Michelakis, E
Weir, EK
[J]. CIRCULATION RESEARCH, 1996, 78 (03) : 431 - 442
[2] NITRIC-OXIDE AND CGMP CAUSE VASORELAXATION BY ACTIVATION OF A CHARYBDOTOXIN-SENSITIVE K-CHANNEL BY CGMP-DEPENDENT PROTEIN-KINASE
ARCHER, SL
HUANG, JMC
HAMPL, V
NELSON, DP
SHULTZ, PJ
WEIR, EK
[J]. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1994, 91 (16) : 7583 - 7587
[3] PREVENTION OF HIGH-ALTITUDE PULMONARY-EDEMA BY NIFEDIPINE
BARTSCH, P
MAGGIORINI, M
RITTER, M
NOTI, C
VOCK, P
OELZ, O
[J]. NEW ENGLAND JOURNAL OF MEDICINE, 1991, 325 (18) : 1284 - 1289
[4] Brendel W., 1982, HIGH ALTITUDE PHYSL, P219
[5] Cochran W.G., 1992, Experimental designs
[6] Oxygen causes fetal pulmonary vasodilation through activation of a calcium-dependent potassium channel
Cornfield, DN
Reeve, HL
Tolarova, S
Weir, EK
Archer, S
[J]. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1996, 93 (15) : 8089 - 8094
[7] GROSSMAN W, 1991, CARDIAC CATHETERIZAT
[8] THE EFFECT OF VASODILATORS ON PULMONARY HEMODYNAMICS IN HIGH-ALTITUDE PULMONARY-EDEMA - A COMPARISON
HACKETT, PH
ROACH, RC
HARTIG, GS
GREENE, ER
LEVINE, BD
[J]. INTERNATIONAL JOURNAL OF SPORTS MEDICINE, 1992, 13 : S68 - S71
[9] HIGH-ALTITUDE PULMONARY-EDEMA
HACKETT, PH
ROACH, RC
[J]. JOURNAL OF WILDERNESS MEDICINE, 1990, 1 (01): : 3 - 26
[10] PHYSIOLOGIC STUDIES OF PULMONARY EDEMA AT HIGH ALTITUDE
HULTGREN, HN
LOPEZ, CE
LUNDBERG, E
MILLER, H
[J]. CIRCULATION, 1964, 29 (03) : 393 - &

← 1 2 →