Vertical gradient of regional lung inflation in adult respiratory distress syndrome.

We obtained chest computed tomography (CT) sections in 12 normal subjects (controls) and 17 patients with the adult respiratory distress syndrome (ARDS) to investigate regional lung inflation. A basal CT section (just above the diaphragm) was obtained in the supine position at zero cm H2O end-expiratory pressure. In each CT section the distance from ventral to dorsal surface (hT) was divided into 10 equal intervals, and 10 lung levels from ventral (no. 1) to dorsal (no. 10) were defined. Knowing the average density and the volume of each level, we computed: (1) the tissue volume; (2) the gas/tissue (g/t) ratio (index of regional inflation); (3) the hydrostatic pressure superimposed on each level (SPL), estimated as density x height. The total volume of the basal CT section was 49 +/- 2.5 ml x m-2 (mean +/- SE) in control subjects and 43 +/- 2.3 ml x m-2 in patients with ARDS (p = not significant [NS]). The tissue volume, however, was 16.7 +/- 0.8 ml x m-2 in control subjects and 31.6 +/- 1.7 ml x m-2 in patients with ARDS (p < 0.01). The g/t ratio in level 1 averaged 4.7 +/- 0.5 in control subjects and 1.2 +/- 0.2 in patients with ARDS (p < 0.01), and this ratio decreased exponentially from level 1 to level 10, both in controls and patients with ARDS. The Kd constant of the exponential decrease was 13.9 +/- 1.3 cm in control subjects and 7.8 +/- 0.8 cm in patients with ARDS (p < 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)

[1]  G. Hedenstierna,et al.  Lung Collapse and Gas Exchange during General Anesthesia: Effects of Spontaneous Breathing, Muscle Paralysis, and Positive End‐expiratory Pressure , 1987, Anesthesiology.

[2]  John F. Nunn,et al.  Applied Respiratory Physiology , 1977 .

[3]  S. Javaheri,et al.  Regional Edema Formation in Isolated Perfused Dog Lungs , 1981, Circulation research.

[4]  J F Murray,et al.  An expanded definition of the adult respiratory distress syndrome. , 1988, The American review of respiratory disease.

[5]  G. Hedenstierna,et al.  Pulmonary Densities during Anesthesia with Muscular Relaxation—A Proposal of Atelectasis , 1985, Anesthesiology.

[6]  A. Torresin,et al.  Relationships Between Lung Computed Tomographic Density, Gas Exchange, and PEEP in Acute Respiratory Failure , 1988, Anesthesiology.

[7]  F. Fazio,et al.  Regional extravascular density of the lung in patients with acute pulmonary edema. , 1987, Journal of applied physiology.

[8]  C. Teplitz,et al.  The core pathobiology and integrated medical science of adult acute respiratory insufficiency. , 1976, The Surgical clinics of North America.

[9]  A Torresin,et al.  Adult respiratory distress syndrome profiles by computed tomography , 1986, Journal of thoracic imaging.

[10]  K. Falke,et al.  Ventilation with end-expiratory pressure in acute lung disease. , 1972, The Journal of clinical investigation.

[11]  G. W. Snedecor Statistical Methods , 1964 .

[12]  D. Glaister Distribution of pulmonary blood flow and ventilation during forward (plus Gx) acceleration. , 1970, Journal of applied physiology.

[13]  E. Agostoni Mechanics of the pleural space. , 1972, Physiological reviews.

[14]  D V Bates,et al.  Regional distribution of ventilation and perfusion as a function of body position. , 1966, Journal of applied physiology.

[15]  D. Matamis,et al.  Total respiratory pressure-volume curves in the adult respiratory distress syndrome. , 1984, Chest.

[16]  J. Hogg,et al.  Regional lung volume and pleural pressure gradient estimated from lung density in dogs. , 1969, Journal of applied physiology.

[17]  M. Dolovich,et al.  Regional distribution of inspired gas in the lung. , 1966, Journal of applied physiology.

[18]  J. West,et al.  Distribution of pulmonary ventilation and perfusion during short periods of weightlessness. , 1978, Journal of applied physiology: respiratory, environmental and exercise physiology.

[19]  P. Pelosi,et al.  Body position changes redistribute lung computed-tomographic density in patients with acute respiratory failure. , 1991, Anesthesiology.

[20]  P. Buckingham,et al.  Distribution of extravascular fluid volumes in isolated perfused lungs measured with H215O. , 1976, The Journal of clinical investigation.

[21]  K. Rehder,et al.  Regional intrapulmonary gas distribution in awake and anesthetized-paralyzed prone man , 1977 .

[22]  D. Pengelly,et al.  Effect of gravity on the distribution of pulmonary ventilation. , 1966, Journal of applied physiology.