Journal of applied physiology
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The intrapulmonary distribution of inspired gas (ventilation/unit lung volume, VI), functional residual capacity (FRC), closing capacity (CC), and the slope of phase III were determined in five awake and five anesthetized-paralyzed volunteers who were in the prone position with the abdomen unsupported. After induction of anesthesia-paralysis, FRC was less in four of five subjects and CC was consistently less. ⋯ The normalized slope of phase III decreased consistently with induction of anesthesia-paralysis, but the vertical distribution of a 133Xe bolus inhaled from residual volume was not different between the two states. The data of the study are compatible with 1) a pattern of expansion of the respiratory system during anesthesia-paralysis and mechanical ventilation different than that during spontaneous breathing and 2) a more uniform intraregional distribution of inspired gas and/or a different sequence of emptying during anesthesia-paralysis.
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We examined the influence of stellate ganglion stimulation, hypoxia, and the infusion of norepinephrine, PGF2alpha, serotonin, and histamine on the longitudinal distribution of vascular resistance and intravascular pressures in an isolated left lower lobe of the dog lung using the low-viscosity bolus technique. Sympathetic stimulation, norepinephrine, serotonin, PGF2alpha, and hypoxia increased total pulmonary vascular resistance by increasing the resistance, primarily on the arterial or upstream side of the volume midpoint, whereas histamine increased the resistance near the venous end of the lobar vascular bed. Hypoxia increased the volume upstream from the site of maximum resistance, suggesting that the larger lobar arteries were distended by the elevated lobar artery pressure. Sympathetic stimulation, norepinephrine, PGF2alpha, and serotonin, on the other hand, had little effect on the volume upstream from the maximum resistance, suggesting that these vasomotor stimuli prevented distension of the larger arteries.