In the normocapnic range, middle cerebral artery mean velocity (MCA Vmean) changes approximately 3.5% per mmHg carbon-dioxide tension in arterial blood (PaCO2) and a decrease in PaCO2 will reduce the cerebral blood flow by vasoconstriction (the CO2 reactivity of the brain). When standing up MCA Vmean and the end-tidal carbon-dioxide tension (PETCO2) decrease, suggesting that PaCO2 contributes to the reduction in MCA Vmean. In a fixed body position, PETCO2 tracks changes in the PaCO2 but when assuming the upright position, cardiac output (Q) decreases and its distribution over the lung changes, while ventilation (VE) increases suggesting that PETCO2 decreases more than PaCO2. This study evaluated whether the postural reduction in PaCO2 accounts for the postural decline in MCA Vmean). From the supine to the upright position, VE, Q, PETCO2, PaCO2, MCA Vmean, and the near-infrared spectrophotometry determined cerebral tissue oxygenation (CO2Hb) were followed in seven subjects. When standing up, MCA Vmean (from 65.3+/-3.8 to 54.6+/-3.3 cm s(-1) ; mean +/- SEM; P<0.05) and cO2Hb (-7.2+/-2.2 micromol l(-1) ; P<0.05) decreased. At the same time, the VE/Q ratio increased 49+/-14% (P<0.05) with the postural reduction in PETCO2 overestimating the decline in PaCO2 (-4.8+/-0.9 mmHg vs. -3.0+/-1.1 mmHg; P<0.05). When assuming the upright position, the postural decrease in MCA Vmean seems to be explained by the reduction in PETCO2 but the small decrease in PaCO2 makes it unlikely that the postural decrease in MCA Vmean can be accounted for by the cerebral CO2 reactivity alone.
In patients with stable asthma, we assayed plasma proteins in the bronchoalveolar lavage fluid to obtain information on plasma exudation into the airways. Fourteen nonsmoking patients with asthma who were in a stable period of their disease and eight nonsmoking healthy volunteers were studied. The ratios of the concentrations of albumin, ceruloplasmin (CP), and alpha-2-macroglobulin (A2M) between blood and epithelial lining fluid were calculated (cQalb, cQCP, and cQA2M). The cQalb was increased in the patients (Mann-Whitney U test, p less than 0.05). In 10 patients the bronchial hyperreactivity was assessed with histamine provocation tests. Significant relationships between the cQalb, cQCP, and cQA2M on the one hand and PC15 on the other hand were found (Spearman's rank correlation: r = -0.62, p less than 0.05; r = -0.61, p less than 0.05; r = -0.79, p less than 0.01, respectively). Fourteen patients were treated with two inhalations of 200 micrograms glucocorticosteroids per day in a 3-month prospective study. Three of them were excluded from further study because of an intercurrent exacerbation of asthmatic symptoms during therapy. In the 11 patients with stable asthma, the cQalb and cQA2M decreased after treatment with inhaled steroids (Wilcoxon's matched pairs signed rank test, p less than 0.03). Our results show that in patients with stable asthma, there is an increased plasma exudation into the airways, most likely caused by an increased respiratory membrane permeability. The plasma exudation correlated with the bronchial hyperreactivity to histamine, and it decreased after corticosteroid therapy.
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