Abstract
A remarkable array of clinical settings is associated with noncardiogenic pulmonary edema and respiratory failure, described as ARDS. The pathophysiology and pathology are similar; thus, it is tempting to infer that the pathogenesis is similar as well. This has led investigators to search for common pathogenetic events with the hope that a single intervention might be effective, regardless of the etiology of ARDS.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Babior BM (1978) Oxygen-dependent microbial killing by phagocytes. N Engl J Med 298:659–668
Bachhofen M, Weibel ER (1977) Alterations of the gas exchange apparatus in adult respiratory insufficiency associated with septicemia. Am Rev Respir Dis 116:589–615
Bernard GR, Lucht WD, Niedermeyer ME (1984) Effect of N-acetylcysteine on the pulmonary response to endotoxin in the awake sheep and upon in vitro granulocyte function. J Clin Invest 73:1772–1784
Björk J, Arfors KE (1982) Oxygen radicals and leucotriene B4 induced increase in vascular leakage is mediated by PMN-leucocytes. Agents Actions [Suppl] 11:63–73
Boveris A (1977) Mitochondrial production of superoxide radical and H2O2. In: Jöbsis FF (ed) Oxygen and physiological function. Professional Information Library, pp 67–82
Brigham K, Duke S (1985) Prostaglandins and lung disease: adult respiratory distress syndrome. Semin Respir Med 7:11–16
Brigham KL, Meyrick B (1986) Endotoxin and lung injury. Am Rev Respir Dis 133:913–927
Brigham KL, Begley CJ, Bernard GR, Loyd JE, Lucht WD et al. (1983) Septicemia and lung injury. Clin Lab Med 3:719–744
Buege JA, Aust SD (1978) Microsomal lipid peroxidation. Methods Enzymol 52:941–948
Cochrane CG, Spragg R, Revak SD (1983) Pathogenesis of the adult respiratory distress syndrome. Evidence of oxidant activity in bronchoalveolar lavage fluid. J Clin Invest 71:754–761
Del Maestro RF, Björk J, Arfors KE (1984) Increased permeability induced by enzymatically generated free radicals. Microvasc Res 22:239–254
Demling RH, Lalonde C, Jin L, Ryan P, Fox R (1986) Endotoxemia causes increased lung tissue lipid peroxidation in unanesthetized sheep. J Appl Physiol 60(6):2094–2100
Deruticke B, Gerlach E, Dickermann R (1966) Abbau freier Nucleotide im Herzen, Skelettmuskel, Gehirn und Leber der Ratte bei Sauerstoffmangel. Pflugers Arch 192:239–245
Gee MH, Margiotta M, Tahamont MV, Flynn JT (1987) Free-radical generation in complement-induced pulmonary dysfunction. In: Taylor AE, Matalon S, Ward PA (eds) Physiology of oxygen radicals. Williams and Wilkins, Baltimore, pp 187–199
Gerdin B, Sandler H, Saldeen T (1982) Pulmonary insufficiency in the rat intravascular coagulation and inhibition of fibrinolysis. II. Investigations on edema formation and morphology, Eur Surg Res 14:252–261
Grosso MA, Brown JM, Viders DE, Mulvin DW et al. (1989) Xanthine oxidase derived oxygen radicals induce pulmonary edema via direct endothelial injury. J Surg Res 46:355–360
Hammerschmidt DE, Weaver LJ, Hudson LD et al. (1980) Association of complement activation and elevated plasma C5a with adult respiratory distress syndrome: pathophysiological relevance and possible prognostic value. Lancet 1:947–949
Haslett C, Henson PM, Guthrie CLA (1985) Modulation of multiple neutrophil functions by preparative methods or trace concentrations of bacterial lipopolysaccharide. Am J Pathol 119:101–110
Heflin AC, Brigham KL (1981) Prevention by granulocyte depletion of increased vascular permeability of sheep lung following endotoxinemia. J Clin Invest 68:1253–1260
Johnson A, Perlman MB, Blumenstock FA, Malik AB (1986) Superoxide dismutase prevents the thrombin-induced increase in lung vascular permeability: role of superoxide in mediating the alterations in lung fluid balance. Circ Res 59:405–415
Johnson KJ, Fantone JC, Kaplan J, Ward PA (1981) In vivo damage of rat lungs by oxygen metabolites. J Clin Invest 67:983–993
Marchesi VT, Florey HW (1960) Electron micrographic observations on the emigration of leucocytes. J Exp Physiol 45:343–348
Marshall PJ, Kulmacz RJ, Lands WEM (1984) Hydroperoxides, free radicals and prostaglandin synthesis. In: Bors W, Saran M, Tait D (eds) Oxy-radicals in chemistry and biology. De Gruyter, Berlin, pp 299–308
Martin D, Allison RC, Taylor AE (1987) Hydroxyl radical damage produced by ANTU In: Taylor AE, Matalon S, Ward PA (eds) Physiology of oxygen radicals. Williams and Wilkins, Baltimore, pp 131–143
McGuire WW, Spragg RG, Cohen AM, Cochrane CG (1982) Studies on the pathogenesis of ARDS. J Clin Invest 69:543–553
Mead JF (1976) Free radical mechanisms of lipid damage and consequences for cellular membranes. In: Pryor WA (ed) Free radical in biology. Academic, New York, pp 51–68
Moncade S, Vane JR (1979) Pharmacology and endogenous role of prostaglandin endoperoxides, thromboxane A2, and prostacyclin. Pharmacol Rev 30 (3):293–331
Oettinger W, Walter G, Jensen U et al. (1983) Endogenous prostaglandin F2 in the hyperdynamic state of severe sepsis in man. Br J Surg 70:237–244
Ogletree M, Oates, J, Brigham K, Hubbard W (1982) Evidence of pulmonary release of 5-HETE during endotoxemia in shock. Prostaglandins 23:459–468
Riede UN, Joachim H, Hassenstein J. Sandritter P, Mittermayer C (1978) The pulmonary air-blood barrier in human shock lungs. Pathol Res Pract 162:41–72
Roy RS, McCord JM (1983) Superoxide and ischemia: conversion of xanthine dehydrogenase to xanthine oxidase. In: Greenwald RA, Cohen G (eds) Oxy radicals and their scavenger systems, vol 2: cellular and medical aspects. Elsevier, New York, pp 145–153
Safar P (1984) Recent advances in cardiopulmonary-cerebral resuscitation. A review. Ann Emerg Med 13 (2):856–862
Schoenberg MH, Fredholm BB, Haglund U (1985) Studies on the oxygen radical mechanism involved in the small intestinal reperfusion damage. Acta Physiol Scand 124:581–589
Schrör K (1984) Prostaglandine und verwandte Verbindungen. Thieme, Stuttgart
Slater TF (1984) Free radical mechanism in tissue injury. Biochem J 222:1–15
Stirpe F, Delia Corte E (1969) The regulation of rat liver xanthine oxidase. J Biol Chem 244(14):3855–3863
Tate RM, Vanbenthyusen KM, Shasby DM, McMurty I (1982) Oxygen radical mediated permeability edema and vasoconstriction in isolated perfused rabbit lungs. Am Rev Respir Dis 126:802–806
Tate RM, Morris HG, Schroeder WR, Repine JE et al. (1984) Oxygen metabolites stimulate thromboxane generation and cause vasoconstriction in isolated perfused rabbit lungs. J Clin Invest 74:608–613
Taylor AE, Martin D, Townsley MI (1985) Oxygen radicals and pulmonary edema. In: Said S (ed) Pulmonary circulation and pulmonary vascular injury. Futura, Mt Kisco, pp 307–320
Till GO, Johnson KJ, Kunkel R et al. (1982) Intravascular activation of complement and acute lung injury: dependency on neutrophils and toxic oxygen metabolites. J Clin Invest 68: 1126–1135
Traber DL, Adams T, Sziebert L (1985) Potentiation of lung vascular response to endotoxin by superoxide dismutase. J Appl Physiol 58: 1005–1009
Ward PA, Till GO, Hatherill JR, Annesley TA (1985) Systemic complement activation, lung injury and products of lipid peroxidation. J Clin Invest 76:517–527
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1992 Springer-Verlag Berlin Heidelberg
About this paper
Cite this paper
Schoenberg, M.H., Beger, H.G. (1992). The Involvement of Oxygen Radicals and Their Derivatives in ARDS. In: Rügheimer, E. (eds) New Aspects on Respiratory Failure. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-74943-8_9
Download citation
DOI: https://doi.org/10.1007/978-3-642-74943-8_9
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-74945-2
Online ISBN: 978-3-642-74943-8
eBook Packages: Springer Book Archive