Effects of acute hyperinflation on chest wall mechanics in dogs

We studied chest wall mechanics at functional residual capacity (FRC) and near total lung capacity (TLC) in 14 supine anesthetized and vagotomized dogs. During breathing near TLC compared with FRC, tidal volume decreased (674 +/- 542 vs. 68 +/- 83 ml; P less than 0.025). Both inspiratory changes in gastric pressure (4.5 +/- 2.5 vs. -0.2 +/- 2.0 cmH2O; P less than 0.005) and changes in abdominal cross-sectional area (25 +/- 17 vs. -1.0 +/- 4.2%; P less than 0.001) markedly decreased; they were both often negative during inspiration near TLC. Parasternal intercostal shortening decreased (-3.0 +/- 3.7 vs. -2.0 +/- 2.7%), whereas diaphragmatic shortening decreased slightly more in both costal and crural parts (costal -8.4 +/- 2.9 vs. -4.3 +/- 4.1%, crural -22.8 +/- 13.2 vs. -10.0 +/- 7.5%; P less than 0.05). As a result, the ratio of parasternal to diaphragm shortening increased near TLC (0.176 +/- 0.135 vs. 0.396 +/- 0.340; P less than 0.05). Electromyographic (EMG) activity in the parasternals slightly decreased near TLC, whereas the EMG activity in the costal and crural parts of the diaphragm slightly increased. We conclude that 1) the mechanical outcome of diaphragmatic contraction near TLC is markedly reduced, and 2) the mechanical outcome of parasternal intercostal contraction near TLC is clearly less affected.     

Stimulation of rapidly adapting pulmonary stretch receptors by pulmonary lymphatic obstruction in dogs

The effects of pulmonary lymphatic obstruction and pulmonary venous congestion on the activities of slowly adapting receptors (SAR) and rapidly adapting receptors (RAR) of the airways were examined in anaesthetized, artificially ventilated dogs. In 11 out of 12 RAR (12 dogs) examined, pulmonary lymphatic obstruction for a period of 20 min produced a sustained significant increase in activity without a significant change in peak airway pressure and dynamic compliance. The activity remained significantly elevated even after the pulmonary lymphatic obstruction was released. This stimulus was without effect on the SAR (n = 5 dogs). Pulmonary venous congestion alone increased the RAR activity (n = 7 dogs) significantly without producing significant changes in airway mechanics. Lymphatic obstruction, when superimposed upon congestion, did not produce a further significant increase in activity. In four dogs the effect of pulmonary venous congestion (left atrial pressure increased from 7.6 +/- 1.7 to 16.3 +/- 2.7 mmHg) (1 mmHg = 133.3 Pa) on pulmonary lymphatic flow was examined. The procedure caused a significant increase in lymph flow. These results suggest that in the dog, the RAR activity is influenced by changes in the pulmonary extravascular space.     

Effect of lymphatic outflow pressure on lymphatic albumin transport in humans.

The effects of posture on the lymphatic outflow pressure and lymphatic return of albumin were examined in 10 volunteers. Lymph flow was stimulated with a bolus infusion of isotonic saline (0.9%, 12.6 ml/kg body wt) under four separate conditions: upright rest (Up), upright rest with lower body positive pressure (LBPP), supine rest (Sup), and supine rest with lower body negative pressure (LBNP). The increase in plasma albumin content (Delta Alb) during the 2 h after bolus saline infusion was greater in Up than in LBPP: 82.9 +/- 18.5 vs. -28.4 mg/kg body wt. Delta Alb was greater in LBNP than in Sup: 92.6 vs. -22.5 +/- 18.9 mg/kg body wt (P < 0.05). The greater Delta Alb in Up and Sup with LBNP were associated with a lower estimated lymphatic outflow pressure on the basis of the difference in central venous pressure (Delta CVP). During LBPP, CVP was increased compared with Up: 3.8 +/- 1.4 vs. -1.2 +/- 1.2 mmHg. During LBNP, CVP was reduced compared with Sup: -3.0 +/- 2.2 vs. 1.7 +/- 1.0 mmHg. The translocation of protein into the vascular space after bolus saline infusion reflects lymph return of protein and is higher in Up than in Sup. Modulation of CVP with LBPP or LBNP in Up and Sup, respectively, reversed the impact of posture on lymphatic outflow pressure. Thus posture-dependent changes in lymphatic protein transport are modulated by changes in CVP through its mechanical impact on lymphatic outflow pressure.     

Effect of immunotherapy on lymphocyte function in acute lymphatic leukemia]

During the immunotherapy children suffered from acute leukaemias will have a significantly higher transformation rate than at the beginning of the immunotherapy. This may be explained by an increase of the immunological competence as well as by an enhanced mobilization of lymphatic cells. Leukaemic blasts used for immunoinduction-therapy will have no higher transformation rates as antigens than those cells never contacted by children. During the immunotherapy an increase of transformation rates may be observed after administering unspecific antigens and in mixed cultures. In a retrospective manner the indication for immunotherapy may be checked again in children with immunotherapy on the basis of the clinical course and evaluation of the cellular immunoreaction.     

Effect of gamma-irradiation on the enzyme activity of cerebrospinal fluid lymphocytes in dogs

Cytochemical activity of succinate dehydrogenase (SDG), L-glycerophosphate dehydrogenase (L-GPDG), lactate dehydrogenase (LDG), and glutamate dehydrogenase (GDG) increased immediately after total-body irradiation with a dose of 129 mC/kg. After 2 h, LDG activity only returned to the control level. Irradiation of the head with the same dose caused less pronounced changes. Changes caused by lethal irradiation (1290 mC/kg) were different: there was an increase after exposure of the abdomen and a decrease in the activity of SDG and L-GPDG after irradiation of the head.     

Effect of acute intestinal obstruction on erythrocyte membrane function

The amino acid composition of red blood cell membrane proteins had been studied in different stages of acute intestinal obstruction. Hydrophobic amino acids were revealed to increase and glutamate was found to decrease during the early period of acute intestinal obstruction. Later neutral amino acids and some of the main amino acids were stated to decrease. Shifts in the ratio of protein fractions seen in red blood cell membrane of rats with acute intestinal obstruction could be explained by changes followed in the amino acid composition. The data accumulated had demonstrated that such a significant modification of protein component of the red blood cell membrane could be one of the reasons of the erythrocyte membrane penetrability violation and could play the pathogenetic role in the occurrence of irreversibility changes in cases of the intestinal obstruction. All that was mentioned above had shown the necessity to use membrane protectors and antienzyme drugs in the postoperative period.     

MLC-activation by acute lymphatic leukemia blasts.

The MLC-activating potential of 25 ALL blasts (16 "common" ALL, 6 T-ALL, 3 not identified) was investigated. Mitomycin-treated leukemic blasts or X-irradiated lymphocytes were cultured with heparinized whole blood from different healthy donors. MLC activation by blast cells was expressed as percentage of MLC activation by X-irradiated lymphocytes. Leukemic blasts showed a heterogeneous pattern of MLC activation, ranging from 2% to 245%. Eleven out of 25 cases of ALL poorly stimulated the MLC (2% to 33% response). Twelve ALL stimulated a normal response (50% to 120%); and 2/25 ALL stimulated a supranormal response (more than 200%). Four of six cases of T-ALL stimulated the MLC as efficiently as irradiated lymphocytes, 2/6 were among the poor stimulators. Most poor stimulator blasts had, however, normal MLC-activating properties if, instead of whole blood, isolated lymphocytes were used as the responding cells. The poor activation of lymphocytes by some leukemic blasts in whole blood appeared to be associated with impaired release of blastogenic factor(s) during the MLBC. No evidence for active suppressor mechanisms was found. The significance of the MLC-activating properties of leukemic blasts for the classification and immunotherapeutic use of ALL is discussed.     

Effect of cyclooxygenase inhibition on ethchlorvynol-induced acute lung injury in dogs

In anesthetized dogs ethchlorvynol (ECV, 9 mg/kg) was selectively administered into the right pulmonary circulation to produce unilateral acute lung injury (ALI) characterized by nonhydrostatic pulmonary edema and systemic hypoxemia. To investigate the hypothesis that products of cyclooxygenase activity are mediators of the arterial hypoxemia, but not the edema formation in this injury, animals were pretreated with one of two chemically dissimilar cyclooxygenase inhibitors, indomethacin (5 mg/kg), or ibuprofen (12.5 mg/kg), or vehicle (0.1 M sodium carbonate) prior to the administration of ECV. Pretreatment with either inhibitor prevented the ECV-induced systemic hypoxemia observed in animals pretreated with vehicle (P less than 0.01). Despite this protection of systemic oxygenation, there was no redistribution of blood flow to the uninjured lung following unilateral ECV administration. Cyclooxygenase inhibition prior to ALI did not attenuate the accumulation of lung water. In the ibuprofen group, left atrial pressure increased significantly following ECV administration. We conclude that a product(s) of cyclooxygenase-mediated arachidonic acid metabolism is responsible for the altered vascular reactivity and consequent systemic hypoxemia in this model, but that the edema formation following ECV is not related to cyclooxygenase activity. In addition, ibuprofen, administered prior to the induction of ALI, exhibits properties not shared by indomethacin but is not different in its capacity to attenuate hypoxemia or in its failure to limit edema formation.