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Proceedings of the 35th World Small Animal Veterinary Congress

WSAVA 2010

Geneva, Switzerland - 2010

Next WSAVA Congress :

Reprinted in IVIS with the permission of WSAVA

B41 CARDIOGENIC AND NON-CARDIOGENIC PULMONARY EDEMA – PATHOMECHANISMS AND

CAUSES*

Johann Lang, Prof. Dr. med. vet., DECVDI, and Tony M. Glaus, PD Dr. med. vet., DACVIM, DECVIM-CA,

Berne and Zurich, Switzerland

Introduction The physiological fluid movement through a vascular membrane into the surrounding tissue

depends on the 3 factors membrane permeability, oncotic pressure gradient and hydrostatic pressure gradient. As additional factor lymphatic drainage counteracts extravascular fluid accumulation. Edema develops, if one of these 4 factors is disturbed in a degree that can not be compensated. For pulmonary edema to develop, essentially always an increased intravascular hydrostatic pressure or a disturbed vascular permeability are responsible. For clinical purposes, pulmonary edema is grossly divided based on pathophysiology in cardiogenic and non-cardiogenic edema. The exact differentiation and diagnosis is made based on a combination of clinical and radiological findings and considerations.

Pathogenesis and CAuses of cardiogenic pulmonary edema Cardiogenic pulmonary edema develops secondary to a rise of hydrostatic pressure in the

pulmonary capillaries (normal <12 mmHg). When rise in pressure is gradual, pressure may exceed 20 mmHg before pulmonary edema develops, because the capacity of lymphatic drainage can be increased.1 For cardiogenic pulmonary edema to develop, by definition there must be left-sided congestive heart failure for which there must be an identifiable underlying cardiac disease. Most important diseases are acquired, advanced degenerative mitral valve disease and dilated cardiomyopathy, and congenital, patent ductus arteriosus.

Radiologically, congestion is manifested by dilated pulmonary veins and cardiogenic edema that in dogs initially is characterized by an increased interstitial lung pattern progressing to an alveolar pattern. Typically, the edema start in the perihilar area progressing to the caudo-dorsal lung parts. In addition, there should generally be clear radiological signs of left sided cardiac disease with distinct left atrial dilation as well as clear clinical signs of an underlying cardiac disease that concurs with the radiograph findings.2

Pathogenesis and Causes of Non-cardiogenic pulmonary edema Various mechanisms are responsible for non-cardiogenic edema to develop, i.e. low alveolar

pressure, increased vascular permeability, increased hydrostatic pressure and a combination of these. The various causes, according to pathophysiology are: low alveolar pressure – postobstructive edema; low alveolar pressure – reexpansion edema; neurogenic edema; vasculitis; high altitude pulmonary edema.

Decreased alveolar pressure develops after fast removal of pleural effusion, pneumothorax, or lung lobes, called reexpansion edema. Mortality of this rare complication in people is described as 20%.3 In veterinary medicine, 2 feline cases have been described that both died.4,5

Decreased alveolar pressure also results from upper airway obstruction, called postobstructive edema; e.g. in brachycephalic syndrome, laryngeal paralysis, tracheal collapse, strangulation, and iatrogenic during intubation and bronchoscopy.6-8 The non-cardiogenic edema in some hunting dogs, may partially be caused by obstruction, specifically laryngeal edema associated with prolonged and constant barking. More likely in these dogs is a neurogenic edema associated with a very high catecholamine level (see below).9 Postobstructive pulmonary edema in dogs and cats is probably much more common than diagnosed. Many cases are probably diagnosed as cardiogenic edema, because dyspnea and edema are associated with exercise or a stress situation, e.g. in laryngeal paralysis or edema associated with

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35th World Small Animal Veterinary Congress 2010 - Geneva, Switzerland

anesthesia, or because affected animals may have two concomitant disease, e.g. tracheal collapse and degenerative mitral valve disease.

A further important cause of non-cardiogenic edema is neurogenic edema. Pathophysiologically, excessive sympatho-adrenergic activation in the medulla oblongata plays the central role. This results in pulmonary venous constriction shifting blood from the systemic to the pulmonic circulation, increase in pulmonary hydrostatic pressure and finally edema.10 Causes described in dogs are brain trauma, epileptic seizures and electrocution.6,11,12 The pulmonary edema in hunting dogs during or after the hunt is also thought to be caused by excessive catecholamine secretion, and thus to be a neurogenic edema.9 A particular pathogenesis of neurogenic pulmonary edema is the one in endurance athletes caused by cerebral edema elicited by hyponatremia.13 Prognosis for complete recovery in neurogenic edema is good with adequate supportive care.

Of big importance for the development of non-cardiogenic edema is the acute (formerly adult) respiratory distress syndrome, ARDS.14 The underlying cause is severe and diffuse damage of the lung parenchyma resulting in endothelial and epithelial disturbance of permeability and exit of protein rich fluid. Complicating factors are coagulation disturbances, perfusion disturbances and loss of surfactant. ARDS may be a complication of primary lung damage, e.g. after inhalation of toxic gas (smoke intoxication), aspiration of gastric content, inhalation of hyperbaric oxygen (oxygen intoxication) or pneumonia. ARDS may also be a complication of a severe systemic disease like sepsis, extensive burn and acute pancreatitis. The prognosis even with intensive supportive care is poor.15 Pulmonary edema similar to ARDS can be elicited by multiple blood transfusions; even though this complication is life threatening, the prognosis is much better than in ARDS. 14,16

A further important cause of protein-rich pulmonary edema is vasculitis and disturbed vascular permeability, in dogs well recognized in leptospirosis.17 This may be complicated by prognostically important pulmonary hemorrhages, that may not be differentiated radiologically from edema.18

Finally, high altitude above around 3000 m may cause non-cardiogenic pulmonary edema in susceptible individuals.

No pulmonary edema in low oncotic pressure Even though oncotic pressure, primarily depending on plasma albumin concentration, is one of the

important factors to keep fluid inside the vasculature, it does not play an important role in the lungs. The pulmonary interstitial space normally has a higher albumin concentration than other interstitial tissue and a small oncotic gradient, because the permeability of pulmonary capillaries is higher than in other capillaries. When plasma albumin drops, the interstitial albumin concentration drops as well, therefore not markedly affecting the oncotic gradient. Thus, it is unusual to find pulmonary edema when hypoalbuminemia is the only abnormality.19

Therapeutic principles for pulmonary edema In cardiogenic pulmonary edema the central therapeutic focus is to decrease preload by

aggressive diuresis using loop diuretics. In contrast, the various mechanisms of non-cardiogenic edema are not affected by diuresis. Even more, in various diseases fluid therapy rather than diuresis to supportively treat the underlying disease is indicated, e.g. in sepsis, pancreatitis and leptospirosis. However, in these cases, infusion therapy has to be defensive / cautious. The primary supportive measure is optimized oxygenation. Depending on edema cause and severity keeping an animal quiet in an oxygen-rich environment may suffice, or artificial respiration using positive endexspiratory pressure (PEEP) may be needed.20 The usefulness of glucocorticoids is controversial. In a recent human study, low dose and early application of methylprednisolone had a positive effect on the course in ARDS.21 Furthermore, extrapolated from human medicine, steroids seem useful in the pulmonary edema in leptospirosis.22

0In summary, cardiogenic and non-cardiogenic causes are responsible for pulmonary edema to develop. The exact identification of the underlying cause is of paramount importance for therapy and prognosis. With progressive specialisation also in intensive care medicine and with similar large dedication of veterinarians and animal owners for time-consuming and costly treatments, more and more so-called hopeless cases may be completely cured.



*Published in Schweiz. Arch. Tierheilk. 2010 (in german) REFERENCES 1. Kittleson M.D.: Pathophysiology of heart failure. In: Small animal cardiovascular medicine. Hrsg. M.D. Kittleson, R.D. Kienle, Mosby, St. Louis, 1998, 136-148. 2. Kittleson M.D.: Radiography of the cardiovascular system; heart failure. In: Small animal cardiovascular medicine. Hrsg. M.D. Kittleson, R.D. Kienle, Mosby, St. Louis, 1998, 67-69. 3. Beng S.T., Mahadevan M.: An uncommon life-threatening complication after chest tube drainage of pneumothorax in the ED. Am J Emerg Med 2004; 22:615-619. 4. Stampley A.R., Waldron D.R.: Reexpansion pulmonary edema after surgery to repair a diaphragmatic hernia in a cat. J. Am. Vet. Med. Assoc. 1993; 203:.1699-1701. 5. Soderstrom M.J., Gilson S.D., Gulbas N.: Fatal reexpansion pulmonary edema in a kitten following surgical correction of pectus excavatum. J. Am. Anim. Hosp. Assoc. 1995; 31:133-136. 6. Drobatz K.J., Saunders H.M., Pugh C.R., Hendricks J.C.: Noncardiogenic pulmonary edema in dogs and cats: 26 cases (1987-1993). J. Am. Vet. Med. Assoc. 1995; 206:1732-1736. 7. Ead H.: Review of laryngospasm and noncardiogenic pulmonary edema. Dynamics. 2003, 14: 9-12. 8. Firdose R., Elamin E.M.: Pulmonary edema secondary to dynamic tracheal collapse. J. Bronchology 2004; 11: 118-121. 9. Egenvall A., Hansson K., Säteri H., Lord P.F., Jönsson L.: Pulmonary edema in Swedish hunting dogs. J. Small. Anim. Pract. 2003, 44: 209-217. 10. Sedý J., Zicha J., Kunes J., Jendelová P., Syková E.: Mechanisms of neurogenic pulmonary edema development. Physiol. Res. 2008; 57: 499-506. 11. Kolata R.J., Burrows C.F.: The clinical features of injury by chewing electrical cords in dogs and cats. J. Am. Anim. Hosp. Assoc. 1981; 17: 219-222. 12. Lord P.F.: Neurogenic pulmonary edema in the dog. J. Am. Anim. Hosp. Assoc. 1975, 11: 778-783. 13. Rosner M.H.: Exercise-associated hyponatremia. Semin. Nephrol. 2009; 29: 271-281. 14. Mortelliti M.P., Manning H.L.: Acute respiratory distress syndrome. Am. Fam. Physician. 2002; 65: 1823-1830. 15. Parent C., King L.G., Van Winkle T.J., Walker L.M.: Respiratory function and treatment in dogs with acute respiratory distress syndrome: 19 cases (1985-1993). J. Am. Vet. Med. Assoc. 1996; 208: 1428-1433. 16. Cherry T., Steciuk M., Reddy V.V., Marques M.B.: Transfusion-related acute lung injury: past, present, and future. Am. J. Clin. Pathol. 2008; 129: 287-297. 17. Baumann D., Flückiger M.: Radiographic findings in the thorax of dogs with leptospiral infection. Vet. Radiol. Ultrasound. 2001; 42: 305-307. 18. Greenlee J.J., Alt D.P., Bolin C.A., Zuerner R.L., Andreasen C.B.: Experimental canine leptospirosis caused by Leptospira interrogans serovars pomona and bratislava. Am. J. Vet. Res. 2005; 66: 1816-1822. 19. Rose B.D., Post T.W.: Edematous states. In: Clinical Physiology of Acid-Base and Electrolyte Disorders. Hrsg. B. Rose & TW Post, McGraw-Hill, New York, 2001, 478-534. 20. Perina D.G.: Noncardiogenic pulmonary edema. Emerg. Med. Clin. North. Am. 2003; 21: 385-393. 21. Frank A.J., Thompson B.T.: Pharmacological treatments for acute respiratory distress syndrome. Curr. Opin. Crit. Care. 2010;16: 62-68. 22. Shenoy V.V., Nagar V.S., Chowdhury A.A., Bhalgat P.S., Juvale N.I.: Pulmonary leptospirosis: an excellent response to bolus methylprednisolone. Postgrad. Med. J. 2006; 82: 602-606.



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