Analysis of airway fluid protein concentration in neurogenic pulmonary edema

Abstract

Intracisternal administration of veratrine (40 micrograms/kg) in the alpha-chloralose-anesthetized dog produces fulminant neurogenic pulmonary edema (NPE). To determine whether the edema resulted from increased microvascular pressure or from increased permeability, the airway fluid-to-plasma protein (A/P) concentration ratios were compared for both total proteins and endogenous protein fractions of known molecular radii (37–114 A) from dogs with edema produced by either veratrine, alloxan (permeability edema), or combined left atrial pressure and volume overload (hemodynamic edema). High A/P ratios (0.98 +/- 0.05) were observed after alloxan administration, whereas lower values (0.54 +/- 0.04) were observed in hemodynamic edema. A/P ratios were observed after veratrine administration that formed a continuum (0.48–0.84) between these extremes. Veratrine animals with high overall A/P ratios exhibited elevated A/P ratios for all protein fractions, whereas animals with lower overall A/P ratios exhibited A/P protein fraction ratios similar to those observed in the hemodynamic group. These data indicate that both hemodynamic and increased permeability mechanisms may play a role to varying degrees in the development of this form of NPE.