Alterations of regional ventilation were determined as a function of body position in five morbidly obese subjects using 81mKr to assess ventilation (V) and 127Xe at equilibrium to determine lung volume (V). With subjects in seated and supine positions, the left lung contributed an average of 43% of the total V/V. When the apical-basal gradient within each lung was examined in subjects in the seated position, V/V was greatest in the dependent (basal) regions in half of the subjects, whereas the others showed greater V/V near the upper lung regions. All obese subjects preferentially ventilated the nondependent lung in both the left and right lateral decubitus positions. In a control group of three nonobese subjects, V/V was found to be equally distributed between left and right lungs in both the seated and supine positions. In contrast with the results in the obese group, V/V was slightly greater in the dependent lung in both lateral decubitus positions. Although the combination of 127Xe images and He-dilution measurement of functional residual capacity in the lateral decubitus positions indicated a reduction in the volume of the dependent lung of the obese when compared with values in the seated position, other factors affecting the mechanical function of either the diaphragm or the intercostal muscles could also have produced these positional alterations of ventilation.
Thirty male sheep were treated with varying doses of endobronchial elastase. Urinary excretion of elastin peptides was then measured by desmosine radioimmunoassay and compared with pre-enzyme values. Mean linear intercepts were measured in treated and untreated lobes 4 wk later, and in addition, lung perfusion, ventilation, and volume were measured before enzyme treatment and 4 wk later using radionuclide-imaging techniques. Most of the elevation in urinary desmosine excretion occurred in the first 48 h after elastase administration. The increase in desmosine excretion was positively correlated with: enzyme dose (r = 0.74, p less than 0.01), increase in mean linear intercept (r = 0.61, p less than 0.05), decrease in lung perfusion (r = 0.77, p less than 0.01), and decrease in ventilation (r = 0.58, p less than 0.05). These results demonstrate that the urinary desmosine radioimmunoassay is a reliable index of pulmonary elastin breakdown and of several resultant anatomic and physiologic stigmata of pulmonary emphysema.
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