We have previously shown that the pulmonary venoconstriction produced by a stable thromboxane A 2 analogue (STAJ is attenuated by prostacyclin (PGIi), but PGI, increases the STA 2 -induced edema. The present study was designed to determine the effects of STA 2 and PGI 2 on the fluid balance in isolated blood-perfused newborn lamb lungs. Vascular permeability was evaluated by use of the fluid filtration coefficient (Kf) and the osmotic reflection coefficient for total proteins (cr, hematocrit-protein double indicator technique), and pulmonary capillary pressure (Pc) was estimated by the double occlusion technique. All lungs had a period of hydrostatic stress induced by elevation of the left atriai pressure from 5 to 20 mm Hg to promote fluid filtration, and the rate of lung weight gain (AW/AT) during this period was determined. Studies were made in four groups; before the hydrostatic stress, lungs were given 1) STA 2 (50 /*g, n=6), 2) PGI 2 (0.4 /ig/kg/min, n = 6), 3) both PGI 2 and STA 2 (n=6), or 4) vehicles (control, n=5). Measurements of Kf were made at the baseline period and after the hydrostatic stress. T hromboxane A 2 (TxA 2 ) is a potent pulmonary vasoconstrictor that may be involved in the early phase of endotoxin-induced pulmonary hypertension and edema. This pulmonary hypertensive response has been suggested to be the result of TxA 2 -mediated pulmonary venoconstriction since the protein-poor lung lymph flow is increased in this early phase.12 By use of the arterial and venous occlusion technique in isolated newborn lamb lungs, we have recently demonstrated that a stable TxA 2 analogue, 9,11-epithioll,12-methano-TxA 2 (STA 2 ), produced pulmonary hypertension primarily by causing pulmonary Received March 27, 1989; accepted June 16, 1989. venoconstriction. 3 Although exogenous prostacyclin (PGI 2 ) attenuated this response to STA 2 by decreasing the pulmonary venoconstriction, PGI 2 administration significantly increased the STA 2 -induced pulmonary edema.3 These observations were interpreted as being consistent with an increase in microvascular permeability by PGI 2 that potentiated the STA 2 -induced pulmonary edema, despite the attenuation of the elevation of the pulmonary microvascular pressure by PGI 2 . However, the possibility that PGI 2 increased lung vascular surface area rather than permeability was not completely excluded in this study because vascular permeability was not directly evaluated.Pulmonary microvascular membrane permeability may be estimated by changes in filtration coefficient (Kf) in isolated perfused lungs. 4 However, when changes in the number of perfused microvessels occur, as with microvascular embolism, vasodilation, or vasoconstriction, Kf may not be a reliable parameter of changes in permeability because Kf depends on membrane surface area.
