Gadolinium prevents high airway pressure-induced permeability increases in isolated rat lungs

To determine theinitial signaling event in the vascular permeability increase afterhigh airway pressure injury, we compared groups of lungs ventilated atdifferent peak inflation pressures (PIPs) with (gadolinium group) andwithout (control group) infusion of 20 µM gadolinium chloride, aninhibitor of endothelial stretch-activated cationchannels. Microvascular permeability was assessed by using the capillary filtration coefficient(K_fc), ameasure of capillary hydraulic conductivity.K_fc was measuredafter ventilation for 30-min periods with 7, 20, and 30 cmH₂O PIP with 3 cmH₂O positive end-expiratorypressure and with 35 cmH₂O PIPwith 8 cmH₂O positive end-expiratory pressure. In control lungs,K_fc increasedsignificantly to 1.8 and 3.7 times baseline after 30 and 35 cmH₂O PIP, respectively. In thegadolinium group,K_fc was unchangedfrom baseline (0.060 ± 0.010 ml · min¹ · cmH₂O¹ · 100 g¹) after any PIPventilation period. Pulmonary vascular resistance increasedsignificantly from baseline in both groups before the lastK_fc measurementbut was not different between groups. These results suggest thatmicrovascular permeability is actively modulated by a cellular responseto mechanical injury and that stretch-activated cation channels mayinitiate this response through increases in intracellular calciumconcentration.