FurchgottRF, ZawadzkiJV. The obligatory role of endothelial cells in the relaxation of arterial smooth muscle by acetylcholine. Nature1980;288(5789):373–376.
2.
FurchgottRF. The role of endothelium in the responses of vascular smooth muscle to drugs (review). Annu Rev Pharmacol Toxicol1984;24:175–197.
3.
NIOSHrecommendations for occupational safety and health stan-dards 1988. MMWR Morb Mortal Wkly Rep1988;Aug 26:37Suppl 7:1–29.
4.
FourbertL, FlemingB, LatimerR, JonasM, OduroA, BorlandC, HigenbottamT.Safety guidelines for use of nitric oxide (letter). Lancet1992;339(8809):1615–1616.
5.
FurchgottRF. Studies on relaxation of rabbit aorta by sodium nitrite: the basis for the proposal that the acid-activatable inhibitory factor from retractor penis is inorganic nitrite and endothelium-derived relaxing factor is nitric oxide. In: VanhjouttePM, editor. Vasodilatation: vascular smooth muscle, peptides, autonomic nerves and en dothelium. New York: Raven Press: 1988:401–414.
6.
IgnarroLJ, ByrnsRE, WoodKS. Biochemical and pharmacological properties of endothelium-derived relaxing factor and its similarity to nitric oxide radical. In: VanhjouttePM, editor. Vasodilatation: vascular smooth muscle, peptides, autonomic nerves and endothe lium. New York: Raven Press: 1988:427–436.
7.
IgnarroLJ, BugaGM, WoodsKS, ByrnsRE, ChaudhuriG.Endo thelium-derived relaxing factor produced and released from artery and vein is nitric oxide. Proc Natl Acad Sci USA1987;84(24):9265–9269.
8.
MoncadaS, RadomskiMW, PalmerRMJ. Endothelium-derived re laxing factor: identification as nitric oxide and role in the control of vascular tone and platelet function (review). Biochem Pharmacol1988;37(13):2495–2501.
9.
PalmerRMJ, FerrigeAG, MoncadaS.Nitric oxide release accounts for the biological activity of endothelium-derived relaxing factor. Nature1987;327(6122):524–526.
10.
Pepke-ZabaJ, HigenbottamTW, Dinh-XuanAT, StoneD, WallworkJ.Inhaled nitric oxide as a cause of selective pulmonary va sodilatation in pulmonary hypertension. Lancet1991;338(8776):1173–1174.
11.
BusseR, FlemingI, SchiniVB. Nitric oxide formation in the vas cular wall: regulation and functional implications (review). Curr Top Microbiol Immunol1995;196:7–18.
HigenbottamTW, LaudeEA. Endothelial dysfunction providing the basis for the treatment of pulmonary hypertension. Giles F Filley lecture (review). Chest1998;114(1 Suppl):72S–79S.
AbmanSH, GriebelJL, ParkerDK, SchmidtJM, SwantonD, Kin sellaJP. Acute effects of inhaled nitric oxide in children with severe hypoxemic respiratory failure. J Pediatr1994;124(6):881–888.
22.
GerlachH, PappertD, LewandowskiK, RossaintR, FalkeKJ. Long term inhalation with evaluated low doses of nitric oxide for selective improvement of oxygenation in patients with adult respiratory dis tress syndrome. Intensive Care Med1993;19(8):443–449.
23.
GerlachH, RossaintR, PappertD, FalkeKJ. Time-course and dose response of nitric oxide inhalation for systemic oxygenation and pulmonary hypertension in patients with adult respiratory distress syndrome. Eur J Clin Invest1993;23(8):499–502.
24.
BigatelloLM, HurfordWE, KacmarekRM, RobertsJDJr, ZapolWM. Prolonged inhalation of low concentrations of nitric oxide in patients with severe adult respiratory distress syndrome: effects on pulmonary hemodynamics and oxygenation. Anesthesiology1994; 80(4):761–770.
25.
McIntyreRCJr, MooreFA, MooreEE, PiedalueF, HaenelJS, FullertonDA. Inhaled nitric oxide variably improves oxygenation and pulmonary hypertension in patients with acute respiratory dis tress syndrome. J Trauma1995;39(3):418–425.
26.
GreenbaumR, BayJ, HargreavesMD, KainML, KelmanGR, NunnJF, et al. Effects of higher oxides of nitrogen on the anaesthetized dog. Br J Anaesth1967;39(5):393–404.
27.
FreemanG, CraneSC, FuriosiNJ, StephensRJ, EvansMJ, MooreWD. Covert reduction in ventilatory surface in rats during prolonged exposure to subacute nitrogen dioxide. Am Rev Respir Dis1972; 106(4):563–579.
28.
FramptonMW, MorrowPE, CoxC, GibbFR, SpeersDM, UtellMJ. Effects of nitrogen dioxide exposure on pulmonary function and airway reactivity in normal humans. Am Rev Respir Dis1991;143(3):522–527.
29.
ShielFO. Morbid anatomical changes in the lungs of dogs after inhalation of higher oxides of nitrogen during anaesthesia. Br J An aesth1967;39(5):413–424.
30.
FreemanB.Free radical chemistry of nitric oxide: looking at the dark side (review). Chest1994;105(3 Suppl):79S–84S.
31.
AzoulayE, LachiaL, BlayoMC, PocidaloJJ. Methaemoglobinemia induced by nitric oxide in whole blood: quantitative relationship. Toxicol Eur Res1978;1(1):7–12.
32.
WesselDL, AdatiaI, ThompsonJE, HickeyPR. Delivery and mon itoring of inhaled nitric oxide in patients with pulmonary hyperten sion. Crit Care Med1994;22(6):930–938.
33.
CockrillBA. The use of nitric oxide in primary pulmonary hyper tension (review). Respir Care Clin N Am1997;3(4):505–519.
34.
HessD, RitzR, BransonRD. Delivery systems for inhaled nitric oxide (review). Respir Care Clin N Am1997;3(3):371–410.
35.
BodySC, HartiganPM. Manufacture and measurement of nitrogen oxides (review). Respir Care Clin N Am1997;3(3):411–434.
36.
WesselDL, AdatiaI, Van MarterLJ, ThompsonJE, KaneJW, StarkAR, KourembanasS.Improved oxygenation in a randomized trial of inhaled nitric oxide for persistent pulmonary hypertension of the newborn. Pediatrics1997;100(5):E7.
37.
Inhaled nitric oxide in full-term and nearly full-term infants with hypoxic respiratory failure. The Neonatal Inhaled Nitric Oxide Study Group. N Engl J Med1997;336(9):597–604.
38.
RobertsJDJR, FinemanJR, MorinFCIII, ShaulPW, RimarS, SchreiberMD, et al. Inhaled nitric oxide and persistent pulmonary hypertension of the newborn. N Engl J Med1997;326(9):605–610.
39.
DavidsonD, BarefieldES, KattwinkelJ, DudellG, DamaskM, StraubeR, et al. Inhaled nitric oxide for the early treatment of per sistent pulmonary hypertension of the term newborn: a randomized, double-masked, placebo-controlled, dose-response, multicenter study. The I-NO/PPHN Study Group. Pediatrics1998;101(3 Pt 1): 325–334.
40.
DemirakcaS, DotschJ, KnotheC, MagsaamJ, ReiterHL, BauerJ, KuehlPG. Inhaled nitric oxide in neonatal and pediatric acute re spiratory distress syndrome: dose response, prolonged inhalation, and weaning. Crit Care Med1996;24(11):1913–1919.
41.
DaltonHJ, HertzogJ, HauserGH. Impact of inhaled nitric oxide (INO) on ECMO utilization and survival in severe respiratory failure (RF). Crit Care Med1998;Suppl:A117.
42.
GoldmanAP, TaskerRC, HosiassonS, HenrichsenT, MacraeDJ. Early response to inhaled nitric oxide and its relationship to outcome in children with severe hypoxemic respiratory failure. Chest1997; 112(3):752–758.
43.
SteinhartC, TimmonsOD, FacklerJ, GreenT, NicholsD, et al. Severe acute respiratory distress syndrome is uniformly fatal in pe diatric patients with immune deficiency, chronic lung disease, myo cardial failure or CNS injury. Pediatric Critical Care Colloquium, Milwaukee WI1996:19.
44.
DellingerRP, ZimmermanJL, TaylorRW, StraubeRC, HauserDL, CrinerGJ, et al. Effects of inhaled nitric oxide in patients with acute respiratory distress syndrome: results of a randomized phase II trial. The Inhaled Nitric Oxide in ARDS Study Group. Crit Care Med1998;26(1):15–23.
45.
BeghettiM, HabreW, FriedliB, BernerM.Continuous low dose inhaled nitric oxide for treatment of severe pulmonary hypertension after cardiac surgery in paediatric patients. Br Heart J1995;73(1):65–68.
46.
BernerM, BeghettiM, RicouB, RougeJG, PretreR, FriedliB.Relief of severe pulmonary hypertension after closure of a large ventricular septal defect using low dose inhaled nitric oxide. Inten sive Care Med1993;19(2):75–77.
47.
CelermajerDS, CullenS, DeanfieldJE. Endothelial dysfunction oc curs early in the pulmonary circulation of children with congenital heart disease. Circulation. 1992;86(suppl 1):I-775.
48.
DrexlerH, HayozD, MunzelT, HornigB, JustH, BrannerHR, ZelisR.Endothelial function in chronic congestive heart failure. Am J Cardiol1992;69(19):1596–1601.
49.
JournoisD, PouardP, MauriatP, MalhereT, VouheP, SafranD.Inhaled nitric oxide as a therapy for pulmonary hypertension after operations for congenital heart defects. J Thorac Cardiovasc Surg1994;107(4):1129–1135.
50.
WesselDL, AdatiaI, GigliaTM, ThompsonJE, KulikTJ. Use of inhaled nitric oxide and acetylcholine in the evaluation of pulmonary hypertension and endothelial function after cardiopulmonary bypass. Circulation1993;88(5 Pt 1):2128–2138.
KatzSD, BiasucciL, SabbaC, StromJA, JondeauG, GalvaoM, et al. Impaired endothelium-mediated vasodilation in the peripheral vasculature of patients with congestive heart failure. J Am Coll Cardiol1992;19(5):918–925.
53.
WhellerJ, GeorgeBL, MulderDG, JarmakaniJM. Diagnosis and management of postoperative pulmonary hypertensive crisis. Circu lation1979;60(7):1640–1644.
54.
HeathD, SmithP, GosneyJ, MulcahyD, FoxK, YacoubM, HarrisP.The pathology of the early and late stages of primary pulmonary hypertension. Br Heart J1987;58(3):204–213.
55.
D'AlonzoGE, BarstRJ, AyresSM, BergofskyEH, BrundageBH, DetreKM, et al. Survival in patients with primary pulmonary hy pertension, results from a national prospective registry. Ann Intern Med1991;115(5):343–349.
56.
GiaidA, SalehD.Reduced expression of endothelial nitric oxide synthase in the lungs of patients with pulmonary hypertension. N Engl J Med1995;333(4):214–221.
57.
KharitonovSA, ChungKF, EvansD, O'ConnorBJ, BarnesPJ. In creased exhaled nitric oxide in asthma is mainly derived from the lower respiratory tract. Am J Respir Crit Care Med1996;153(6 Pt 1):1773–1780.
58.
MatsumotoA, HirataY, MomomuraS, FujitaH, YaoA, SataM, SerizawaT.Increased nitric oxide production during exercise (let ter). Lancet1994;343(8901):849–850.
59.
RileyMS, PorszaszJ, MirandaJ, EngelenMP, BrundageB, WassermanK.Exhaled nitric oxide during exercise in primary pulmo nary hypertension and pulmonary fibrosis.Chest1997;111(I): 44–50.
60.
AdatiaI, PerryS, LandzbergM, MooreP, ThompsonJE, WesselDL. Inhaled nitric oxide and hernodynarnic evaluation of patients with pulmonary hyperten_sion before transplantation. J Am Coll Car diol1995;25(7):1656–1664.
61.
CockrillBA, KacmarekRM, ThompsonBT, et al. Response to in haled nitric oxide identifies a subset of patients more likely to re spond to high-dose calcium channel blockers (abstract). Am J Respir Crit Care Med1995;151:728.
62.
RobertsJDJr, RobertsCT, JonesRC, ZapolWM, BlochKD. Con tinuous nitric oxide inhalation reduces pulmonary arterial structural changes, right ventricular hypertrophy, and growth retardation in the hypoxic newborn rat. Circ Res1995;76(2):215–222.
63.
RobertsJDJr, ChenTY, KawaiN, WainJ, DupuyP, ShimouchiA, et al. Inhaled nitric oxide reverses pulmonary vasoconstriction in the hypoxic and acidotic newborn Iamb. Circ Res1993;72(2):246–254.
64.
LeeJS, AdrieC, JacobHJ, RobertsJDJr, ZapolWM, BlochKD. Chronic inhalation of nitric oxide inhibits neointimal formation after balloon-induced arterial injury. Circ Res1996;78(2):337–342.
65.
AdatiaI, LilleheiC, ArnoldJH, ThompsonJE, PalazzoR, FacklerJC, WesslerDL. Inhaled nitric oxide in the treatment of postopera tive graft dysfunction after lung transplantation. Ann Thorac Surg1994;57(5):1311–1318.
66.
BachaEA, HerveP, MurakamiS, ChapelierA, MazmanianGM, de MontprevilleV, et al. Lasting beneficial effect of short-term inhaled nitric oxide on graft function after lung transplantation. Paris-Sud University Lung Transplantation Group. J Thorac Cardiovasc Surg1996;112(3):590–598.
MylesPS, VenemaHR. Avoidance of cardiopulmonary bypass dur ing bilateral sequential lung transplantation using inhaled nitric ox ide. J Cardiothorac Vase Anesth1995;9(5):571–574.
69.
PinskyDJ, NakaY, ChowdhuryNC, LiaoH, OzMC, MichlerRE, et al. The nitric oxide/cyclic GMP pathway in organ transplantation: critical role in successful lung preservation. Proc Natl Acad Sci US A1994;91(25):12086–12090.
70.
Kou!B, WillenH, SjobergT, WetterbergT, KugelbergJ, SteenS.Pulmonary sequelae of prolonged total venoarterial bypass: evalua tion with a new experimental model. Ann Thorac Surg1991;51(5): 794–799.
SnellGI, SalarnonsenRF, BerginP, EsrnoreDS, KhanS, WilliamsTJ. Inhaled nitric oxide used as a bridge to heart-lung transplantation in a patient with end-stage pulmonary hypertension. Am J Respir Crit Care Med1995;151(4):1263–1266.
73.
LohE, StamlerJS, HareJM, LoscalzoJ, ColucciWS. Cardiovas cular effects of inhaled nitric oxide in patients with left ventricular dysfunction. Circulation1994;90(6):2780–2785.
74.
PfefferKD, EllisonG, RobertsonD, DayRW. The effect of inhaled nitric oxide in pediatric asthma. Am J Respir Crit Care Med1996; 153(2):747–751.
75.
MurphyS, MinorRLJr, WelkG, HarrisonDG. Evidence for an astrocyte-derived vasorelaxing factor with properties similar to nitric oxide. J Neurochem1990;55(1):349–351.
76.
RadomskiMW, PalmerRM, MoncadaS.The role of nitric oxide and cGMP in platelet adhesion to vascular endothelium. Biochern Bio phys Res Commun1987;148(3):1482–1489.
